Conveyors: power-driven – With means to facilitate working – treating – or inspecting...
Reexamination Certificate
2002-09-24
2004-01-27
Ellis, Christopher P. (Department: 3651)
Conveyors: power-driven
With means to facilitate working, treating, or inspecting...
C198S440000, C198S575000, C198S576000, C198S577000, C198S578000, C198S579000, C198S594000, C198S794000
Reexamination Certificate
active
06681915
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a processing system for small items of manufacture and, in particular, to a modular processing system for the production of batteries.
Items of manufacture, and, in particular, small items of manufacture requiring multiple processes during their production and which are produced in large quantities, such as dry cell batteries, are completed by passing the articles through a series of individual apparatuses which are specifically designed to perform one or two processes. These processing machines are often stand-alone units which operate on a bulk input/bulk output basis. This type of system is labor intensive, and lacks the capability for adequate quality control, rapid maintenance, or tracking of the manufactured articles.
Current processing equipment which typically operates in an indexed manner has a single main drive motor which drives the indexer as well as driving the application heads performing the specific process. These various operations conducted by the machines are mechanically timed and are controlled by mechanical cams. Such mechanical timing is time-consuming to setup, is not flexible, and may lack precision. Any malfunction of these machines generally requires the entire machine to be pulled off-line for time-consuming repair, thus resulting in undesirable production efficiency.
The bulk-in/bulk-out manner in which these machines operate is such that the battery cans are extracted in random fashion from a bin thereby requiring proper orientation to begin the processing and are then output from the machine into another bin after processing. The processed cans are then transported in bulk to another processing station whereupon the bin extraction and article orientation functions are again repeated thus duplicating unnecessary handling and time consuming operations. Others of these machines operate on a theory of back pressure wherein the battery cans are stacked and urged to a processing station by applying a force to the backed up cans to force the articles through the processing machine. There must always be a supply of battery cans on the input side to maintain sufficient pressure to keep the ‘pump primed’ thereby facilitating processing throughput. Such methods of input and output preclude the tracking of individual battery cans during processing and between discrete machines. The manufacturer therefore loses information about individual cans between product assembly or processing steps. A consequence of the random input and output is a loss of quality control on individual articles with the result being that there is little to no process data available on the articles, and what data is available is not in alignment with quality control samples taken from the processing line.
At the conclusion of the quality control sampling, the machine is again stopped and again unloaded by hand. This time-consuming but necessary function often results in a significant loss of valuable production time in addition to the excessive labor costs associated therewith. Additionally, repeated starting and stopping of the machine induces variation in the production process which can adversely affect production quality.
The current mechanically controlled machines often include one or more cams to transfer desired time sequenced motion to the processing apparatuses mounted to the machine for a desired synchronized operation. In addition to the single drive motor driving the processing apparatus, the motor also operates and drives a large mass circular dial which transports the battery cans therearound to the individual process stations on the machine. Typically, these large mass dials require a significant percentage of the power consumed by the machine to accelerate and decelerate the dial during the indexing operations. Power thus expended contributes little ‘value added’ to the finished product. Also, the acceleration and deceleration of large mass dials requires a significant portion of the total time of operation which therefore severely limits the throughput of the processing machines.
The aforementioned current processing equipment employs separately controlled process stations in which battery cans were randomly dumped from one machine to another, thereby eliminating any ability to track a given battery can. Additionally, in order to conduct experimental process operations, conventional manufacturing systems commonly require that the normal system operation first be shutdown, the experimental equipment then be installed, and the experimental process thereafter conducted. Once the experimental operation is finished, the conventional system is reconfigured for normal article manufacturing. Thus, experimental processing required extensive shutdown time and labor to reconfigure the system and conduct the experimental process.
Therefore, there is a desire and need in industry and particularly in dry cell battery processing for a processing system which can operate at increased throughput and which eliminates unnecessary handling and duplicative operations to be performed on the manufactured articles. The needed processing system has the additional characteristics of being flexible, permitting off-line set-up and calibration, the ability to be quickly deployed, and capable of rapidly incorporating product design changes. Such a system is also desired to more efficiently monitor quality control on processes, including the capability of tracking a single item of manufacture through the processing system, and also the ability to test new processes and processing equipment for a comparative analysis of articles of manufacture processed normally with articles of manufacture processed with one or more test processes.
Also, it is desirable to provide for a processing system that allows for battery cans to be tracked and accounted for throughout the entire processing operation. Further, it is desirable to provide for such a processing system that allows for easy experimental processing that does not require excessive system shutdown and labor.
SUMMARY OF THE INVENTION
One aspect of the present invention is a high speed manufacturing system for processing articles of manufacture wherein processes are to be performed on the articles at a pre-selected processing rate. The system includes a trunk for simultaneously conveying a plurality of the articles of manufacture at the pre-selected processing rate in a first mode of motion from the beginning of the manufacturing system to the end of the system. At least one branch processing station is positioned intermediate the beginning and the end of the trunk. The branch processing station, during its operation, performs at least one process on the articles of manufacture conveyed on the branch processing station wherein the articles are conveyed in a second mode of motion. At least one transfer device is positioned intermediate the trunk and the branch processing station to continuously extract articles of manufacture from the trunk and transition the movement of the extracted articles of manufacture from the first mode of motion to the second mode of motion for transfer to the branch processing station. The transfer device also extracts each of the processed articles of manufacture from the branch processing station and transitions the movement of the articles from the second mode of motion to the first mode of motion for transfer to the trunk.
Another aspect of the present invention is a distributed control system for controlling the manufacturing system having a trunk and at least one branch processing station. The distributed control system includes a coordinating controller for monitoring processing of each article of manufacture on the manufacturing system and for coordinating the processing of each article of manufacture. A process station controller is networked with the coordinating controller and is associated with each branch processing station for initiating the processes performed thereon for each article of manufacture. A process module controller is associated with each
Chang Stephen T.
Law Chad E.
Pattantyus-Abraham Imre A.
Stedman Stanley W.
Weber Patrick J.
Deuble Mark A.
Ellis Christopher P.
Eveready Battery Company Inc.
Pophal Michael C.
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