DE19739635A1 - Rotary hammering installation - Google Patents

Abstract

A rotary hammering installation has at least three work stations (1) including at least one rotary hammering station. There is a transport system (2) which is controllable in such a way that both the sequence and the number of work stations for the workpiece can be freely chosen.

Description

The present invention relates to a rotary kneading system for processing workpieces, comprising at least three processing stations, of which at least one as a round kneading station is executed, as well as a transport system that the processing stations Can feed workpiece.

Circular kneading systems of the aforementioned type generally consist of individual circular kneading units as well as often from stations in which machining or other machining operations cations can be carried out. Traditionally, rigid transportation connects system the individual stations. The disadvantage here is that on such System can only be manufactured to a limited extent different workpieces, the At least the sequence of the production stages (stage sequence) of the different workpieces must be similar.

The problem underlying the present invention is the creation of a round knee t system that is designed so flexibly that different workpieces without or with only rela tiv small conversion work can be processed.

This is achieved according to the invention in that the transport system can be controlled in such a way that both the order and the number of processing stations to which the plant piece supplied by the transport system, are freely selectable. For example happen that the processing stations are essentially on a circle are arranged and the workpieces by an essentially ring-shaped transport system the processing stations are fed, the transport system both in Inside as well as outside of the circle formed by the processing stations can. In such a rotary kneading system, in contrast to a fixed linear one Processing sequence according to the prior art, the individual processing stations can be freely selected according to the workpiece to be machined, with one change  order does not involve any additional effort. Rather, they are workpieces with different sequence of stages on the layout without conversion work on the transportsy stem producible, whereby only the tools of the individual machining, if applicable must be changed.

According to alternative embodiments of the present invention, the operations tion stations can also be arranged on a square or a rectangle, whereby then the transport system should advantageously be designed similarly. The processing stations can also be arranged on a straight line, the flexibility according to the invention the rotary kneading system is ensured by the flexible transport system.

Further features and advantages of the present invention will become apparent from the following description of a preferred embodiment with reference on the enclosed picture. It shows:

Fig. 1 is a schematic view of a rotary kneading system according to the invention.

As can be seen from Fig. 1, the rotary kneading system according to the invention includes processing stations 1 , which can be designed, for example, as rotary kneading stations, chip stations or as shaping stations. The processing stations 1 are arranged in a circle around a transport system 2 . The controllable transport system 2 is annular, so that a workpiece moved by the transport system 2 with little on wall freely selectable each of the processing stations 1 can be supplied.

It is also conceivable to arrange the transport system 2 as an annular transport system outside around the processing stations 1 arranged on a circle. In this case, too, the controllable transport system 2 could feed a workpiece to each of the machining stations 1 in succession in any order or even to individual machining stations 1 without great effort.

Claims (6)

1. rotary kneading system for machining workpieces, comprising at least three machining stations ( 1 ), of which at least one is designed as a rotary kneading station, and a transport system ( 2 ) which can feed the workpiece to the machining stations ( 1 ), characterized in that the transport system ( 2 ) can be controlled so that the sequence and the number of machining stations ( 1 ) to which the workpiece is fed by the transport system ( 2 ) can be freely selected. 2. Round kneading plant according to claim 1, characterized in that as processing stations NEN ( 1 ) round kneading stations, chip stations and / or forming stations use fin. 3. Rotary kneading system according to claim 1 or 2, characterized in that the machining stations ( 1 ) are arranged essentially on a circle and the workpieces are fed to the machining stations ( 1 ) by a substantially annular transport system ( 2 ). 4. Round kneading system according to one of claims 1 to 3, characterized in that the transport system ( 2 ) is located inside a circle formed by the processing stations ( 1 ). 5. Circular kneading system according to one of claims 1 to 3, characterized in that the transport system ( 2 ) is outside a th circle formed by the processing stations ( 1 ). 6. rotary kneading system according to one of claims 1 or 2, characterized in that the processing stations ( 1 ) are arranged essentially on a rectangle or a square and the workpieces by a substantially rectangular or quadrati cal transport system ( 2 ) the processing stations ( 1st ) are fed.