DE10236843A1 - Processing of operational date from a manufacturing process has sensor data f sampled and fed continuously in data packets to data base for evaluation - Google Patents

Abstract

An automatically operated production process has various machines, e.g robots ,machine tools, welding machines (A1-n) that are continuously monitored by feeding sensor data to monitoring computers (E1-n). The periodically sampled data is fed into a real time data base (D) at specified times that avoid data collisions. Output data is fed to single user groups (G1-n) such as quality, planning, production management.

Description

The invention relates to a Continuous delivery device and method and preparation of current process and product information.

It is known based on process and product information an assessment at regular intervals the manufacturing quality an automated manufacturing system. The information will therefor generated from data recorded at the manufacturing plant. there must become- and optional information. Required information is mandatory for an evaluation the manufacturing quality. Through further information, so-called optional information a more differentiated assessment possible. Additional recording means necessary for this as well as an increased However, storage costs also mean an additional financial burden, so here an optimal compromise too find is. The information generated is heavily dependent on a measuring accuracy used means of detection. A preparation of the data by the computing resources available on the system are often not possible, so that additionally expensive Evaluation units are necessary. There is also optional information from other systems, for example from systems for security product quality, partially not available.

The invention therefore has the technical problem based on a device and a method for monitoring to create from at least one manufacturing plant through which a good evaluation of the manufacturing quality is realized inexpensively.

The solution to the problem arises through objects with the features of the claims 1 and 11. Further advantageous embodiments of the invention result itself from the subclaims.

A reliable evaluation of the manufacturing plant can be realized by a device and a method by which the data continuously, without any significant time delay, ascertainable and can be forwarded to a storage means, with the evaluation unit at least one view for at least one user group can be generated, comprising at least one a classification based on stored criteria in at least two Categories. By forwarding all recorded data to a central Position is a differentiated assessment taking into account a variety of data possible. The same information is available through central storage of the data for different Preparations are available in one or more evaluation units. Thereby multiple entries of the same data can be avoided. The preparation includes at least a classification of the manufacturing quality in two categories, for example "OK" and "intervention necessary ". For Assessing the data, it makes sense to apply suitable criteria in advance define on the basis of which certain statements about the process quality are feasible are. The stored data is used for at least one user group prepared accordingly and this in at least one special View available posed. With the user groups it can. different Organizational and management levels act, for example, are different abstractions and identify different levels of information. The user group can that for they collect certain data, but preferably an automatic one Delivery of the evaluated data.

In a further development of the invention can they Data from robots and / or manufacturing plants and / or plants for Ensuring process quality. These are equipped with means through which the data in sufficient pass at short intervals can be. These can be sensor units of the system and / or external measuring devices act. The data can both analog information, such as speeds or positions of a robot, as well as digital status reports. status messages are, for example, the results of individual process sections as in Order "or" not okay ". You can are output as a bit pattern. Then there are a number of possible error codes dependent on the number of fault bits per system. Such a dependency however, is not necessarily proportional.

In a preferred embodiment are the data of the individual robots and / or systems over a Bus system detectable. In automated manufacturing systems, bus systems are mostly, in particular Fieldbus systems, available. A use of an existing bus system for transmission the data is therefore inexpensive realizable. The well-known bus technology enables fast and reliable transmission of the data. The data transfer takes place, for example, using the TCP / IP standard.

In another embodiment the continuous, without any significant time delay, detected Data stored in a real-time database. The real-time database is to be chosen large enough according to the application. In the real-time database all the information collected is available for evaluation. By means of the Evaluation unit that can access the real-time database a quasi-continuous evaluation takes place. This is for example a quick reaction to any quality waste and / or irregularities in production, which can be represented by at least one suitable production size is possible.

In a preferred embodiment, a unique time stamp is assigned to all data. A time stamp enables a later assessment of time sequences in production. Currently For example, stamps can be linked to the recorded data by the recording means. Typically, time stamps are assigned by the recipient upon receipt. These time stamps can, however, be falsified due to long transmission paths between the database and a recipient responsible for the evaluation, and due to short-term transmission errors. The time stamp is therefore preferably assigned to the information when it is recorded in the database. This makes it possible to carry out unadulterated evaluations of time sequences even with subsequent data paths with long runtimes. The transfer from the production systems to the storage medium can be implemented in real time, so to speak. It is therefore sufficient to assign the time stamp to the data when it is stored in the database. Additional time recording devices on each system can thus be avoided. However, it is also conceivable to assign the time stamp to the information directly using a tracer.

In another embodiment the manufacturing quality is observed on the basis of predefined ones Events. A definition of events, for example, makes it possible to use only digital ones Transmit signals which only the information "event occurred" or "event not occurred ". Both observations are direct on the production line, as well as an observation in the evaluation unit. In many cases, information from various data becomes an event connected. Therefor are different linking tactics, For example, use Data Fusion or Kalman Filters, which need a computing device. The link is made in the evaluation unit, so additional computing means can be sent to the Plants can be dispensed with. In addition, as already explained, the Evaluation unit more information available, so that a better evaluation is possible.

In another embodiment are as events at least reaching a warning limit Reaching an intervention limit and reaching an alarm limit Are defined. Due to the different events, different quality defects and / or other manufacturing properties are displayed. For example a first irregularity in production can be signaled by the warning limit, but with which the quality requirements are still adhered to. When the intervention limit is reached, a Intervention of a competent Person necessary. The alarm limit signals the occurrence of a serious error, which means an immediate system stop for the warranty that demands security.

In a preferred embodiment there is an optical and / or acoustic signaling of the events. For the Optical or acoustic signaling are different information channels such as visualization on a screen, cell phone, SMS, sirens and / or color changes of lamps conceivable.

In another embodiment automatic steps are initiated based on events that have occurred. For example, due to reaching the intervention limit at least one remedial action is automatically taken. To possible activities belong the recalibration of a robot or the triggering of a special correction program.

The invention is explained in more detail below on the basis of a preferred exemplary embodiment. The only 1 shows a schematic representation of a device for monitoring the production.

The production includes the systems A ₁ , ..., A _n , which can be robots, for example welding or assembly robots, production machines, for example milling or turning machines, tapping conveyor systems, and systems for monitoring process reliability. The monitoring device comprises a real-time database D, which can store data up to real time in a sufficiently short time, and evaluation units E ₁ , ..., E _m , by means of which the data for user groups G ₁ , ..., G _m are prepared accordingly , The evaluation units E ₁ , ..., E _m can be configured either in a common computing unit or as separate computing units.

The relevant data are recorded on systems A ₁ , ..., A _n . Systems A ₁ , A ₂ , which can transmit data at sufficiently short intervals, are directly connected to the real-time database D. The data of the system A ₃ , ..., A _n are recorded by a field bus system B and transmitted to the real-time database D. The acquisition of the data in the systems A ₁ ,..., A _n and the transmission to the real-time database D is carried out virtually continuously, ie without any significant time delay. Long signal run times over long distances should be avoided. However, long signal propagation times can rarely be avoided for transmission of the process information to the various evaluation units E ₁ , ..., E _m and / or user groups G ₁ , ..., G _m . All data that is stored in the real-time database D is therefore assigned a unique time stamp. If the time stamp is not assigned to the (processed) data until it has been received by the evaluation units E ₁ , ..., E _m and / or the user groups G ₁ , ..., G _m , the time sequence can only be clearly assessed. if collisions in networks and the associated delayed delivery can be completely ruled out. If, on the other hand, the time stamp is assigned to the data directly when it is recorded in the real-time database D, it is impossible to influence it later, even with long transmission paths between the real-time database D and the user groups G ₁ ,..., G _m . This enables an unadulterated calculation of time sequences.

The data are processed by the evaluation unit E ₁ , ..., E _m prepared accordingly for the individual user groups G ₁ , ..., G _m . For example, system support / maintenance, quality inspection, master production / master maintenance, planning / quality management and management can be distinguished as user groups. Each user group is provided with one or more views of the processed data. For example, for system support, signal curves of the monitored processes, for quality control, status reports from the measuring stations, for the master of production, quantity information and / or cycle time information, for the master of maintenance, characteristic values for system availability and / or fault analysis, for planning, cycle time analysis and / or fault analysis and quality indicators of interest to management.

The data stored in the real-time database D is processed on the basis of stored criteria. Stored criteria are, for example, a one-time exceeding of maximum or minimum values, an n-time exceeding of maximum or minimum values within a certain time period or an overshoot or undershoot of envelopes, which indicate a percentage deviation from target values. Such criteria can be used to identify events for each level 1 . 2 . 3 define. Through the events 1 . 2 . 3 For example, the reaching of a warning limit, an intervention limit or an alarm limit is signaled. Signaling can take place optically and / or acoustically. It can have a purely informative character or automatically trigger an action I, II, III associated with the respective event. Possible warning limits for the user groups mentioned are, for system support, a lack of a signal sequence, a quality limit exceeding a scrap limit, for the master of production a shortfall in quantity, for the master of maintenance a system availability, for the planning level a fault analysis and for management shortfall and / or lack of quality indicators.

A preferred area of application The invention is an application as a manufacturing information system in the Body shop. Mandatory information are, for example, the movement times for forward and regression of cylinders, movement times of taster conveyors in the upward, forward, downward and Backward movement, closing times of robot-guided and stationary welding guns and cycle times of the robots. For an adaptation of the invention to any manufacturing system further and / or other suitable mandatory information can be defined by a person skilled in the art. As an additional Optional information is movement times for forward and backward movement of cylinders in two time periods conceivable. Further optional information are power consumption, axis position, axis angle, speed per robot and / or acceleration values of the robot axes, status variables the Interbus signals as well as system data, inputs and outputs of the Interbus master circuits and / or user variables. Furthermore status messages can also be recorded as optional information. Under Status reports are the results of the individual process sections - like "OK" or not all right "- understood and the causes of errors that have occurred. As possible status reports are status reports from lasers used laser robots, from inline laser measuring stations, of stud welding systems, of folding systems, Mig / CO2 systems and / or plasma soldering systems to call. The selection of optional information is also not limited by the examples mentioned, but rather suitably adapted by the specialist according to the manufacturing system.

An adaptation of the invention to special manufacturing plants Both in body construction and in other areas is without restrictions possible. There are further and / or different subdivisions of the user groups just as conceivable as additional ones and / or other process and product information.

Claims (20)

Device for monitoring at least one production system, the production system being designed with at least one means for acquiring data which contain process and product information of the production system, comprising at least one storage means and at least one evaluation unit (E ₁ , ..., E _m ) , characterized in that the data can be recorded continuously and forwarded to the storage means, and by the evaluation unit (E ₁ , ..., E _m ) at least one view of the data for at least one user group (G ₁ , ..., G _m ) can be generated, comprising at least one classification based on stored criteria in at least two categories. Device according to claim 1, characterized in that the data of robots and / or production systems and / or systems for securing the Product and / or process quality originate. Device according to claim 1 or 2, characterized in that that the Data about a bus system (B) can be detected and transferable are. Device according to one of the preceding claims, characterized in that that this Storage means is designed as a real-time database (D). Device according to one of the preceding claims, characterized in that that the Data can be assigned a unique time stamp. Apparatus according to claim 5, characterized in that the time stamp the data can be assigned in the storage means during recording. Device according to one of the above claims, characterized in that previously defined events ( 1 . 2 . 3 ) are observable. Device according to claim 7, characterized in that as events at least reaching a warning limit, reaching an intervention limit and / or reaching an alarm limit are defined. Device according to claim 7 or 8, characterized in that that a optical and / or acoustic signaling of the events takes place. Device according to one of claims 7 to 9, characterized in that that due automatic actions (I, II, III) are initiated. Method for monitoring at least one production system, the production system being designed with at least one means for acquiring data which contain process and product information of the production system, comprising at least one storage means and at least one evaluation unit (E ₁ , ..., E _m ) , characterized in that the data are continuously recorded and forwarded to the storage means, and by the evaluation unit (E ₁ , ..., E _m ) at least one view of the data for at least one user group (G ₁ , ..., G _m ) is generated, comprising at least one classification based on stored criteria in at least two categories. Method according to claim 11, characterized in that the data of robots and / or production systems and / or systems for securing the Product and / or process quality originate. A method according to claim 11 or 12, characterized in that _; that the data are recorded and transmitted via a bus system (B). Method according to one of claims 11 to 13, characterized in that that the Data stored in a real-time database (D) at sufficiently short intervals become. Method according to one of claims 11 to 14, characterized in that that the Data is assigned a unique time stamp. A method according to claim 15, characterized in that the time stamp is assigned to the data when recorded in the storage means. Method according to one of claims 11 to 16, characterized in that previously defined events ( 1 . 2 . 3 ) to be watched. A method according to claim 17, characterized in that as events at least reaching a warning limit, reaching an intervention limit and / or reaching an alarm limit are defined. Method according to claim 17 or 18, characterized in that that the Events are signaled optically and / or acoustically. Method according to one of claims 17 to 19, characterized in that that due automatic actions (I; II, III) are initiated.