EP1741633A1 - Method and device for checking a container handling plant - Google Patents

Abstract

The checking process is for a bottle handling machine (2, 6) handling bottles (7). The number of bottles supplied in succession is checked (9), the number going out is checked (10) and registered, and if the numbers are different, a fault report is issued so that immediate or later action can be taken to make the machine serviceable again.

Description

The invention relates to methods and apparatus for checking an automatic container treatment plant such as filling, sealing and labeling machine for correct and error-free treatment of the processed containers such as bottles, cans and the like.

State of the art

The large number of machines incorporated in container treatment plants often does not allow for a continuous, continuous flow of the system due to the usually very small disturbances on individual machines. For this reason, various attempts and developments have been made for optimal plant control. However, this requires a considerable amount of electronic and mechanical effort, which in the harsh operating mode of container treatment and filling systems is not always sufficient or can withstand these conditions. So we have already proposed a method for determining the performance and number of treatment of containers in vessel-storing treatment machines, such as cleaning machines, the output from the number of vessels entered, the treatment time and throughput and the current level of filling of the machine is determined by a constant arithmetic and Resulting characteristic for power control of the machine itself and / or other associated machines should be used ( DE A1 31 20 603 ). With this known method, disturbances which are caused by vessel-storing treatment machines are detected, in particular when regulation of complete systems is provided, and can be used to influence assigned machines. This also makes it possible to influence the operation of the affected vessel treatment machine. In the event of an input-side disturbance, this has an effect on the output power of the machine after expiry of the throughput-dependent storage time and causes a difference of this power to, for example, by means of a tachogenerator or otherwise determinable theoretical output power. In this respect, it is possible with the known method to determine the output power continuously from the entered and stored number of introduced vessels as well as from the current filling level. The resulting data can be used for power control or for general influencing of this treatment machine and / or in the context of an overall system.

From the DE 41 37 319 C2 Furthermore, a method for monitoring a labeling machine has become known with which the number of incoming objects, the temperature and the amount of adhesive consumed in the same period of time, is formed from the values of a specific adhesive consumption characterizing quotient and the temperature of the adhesive for Adjustment of the specific adhesive consumption is adjustable. To monitor the labeling a sensor for detecting the number of incoming objects, a measuring device for continuously determining the amount of consumed in the same period of time adhesive, a temperature sensor, an evaluation and ultimately a tempering is provided. Both known methods according to the aforementioned prior art have in common that the number of incoming containers is used and used to determine a theoretical throughput. The invention is now based on taking into account the prior art, the task of monitoring to the effect that disturbances within a plant, a plant block or a single machine regardless of a possible follow-up time can be determined immediately. This object of the invention is based is achieved in a method of the type mentioned in that with a first test measure the number of consecutively supplied container and a second test measure the number of consecutively leaking container is registered, and wherein when changing the number of leaking container over the number of containers supplied a fault message and this is used for immediate or later action for the operation of the treatment plant. In the case of an immediate action, such a fault triggers an immediate stop signal for the relevant treatment machine.

Further features of the invention will become apparent from the further subclaims and the device claims, which are also to be used as a basis and supplement to the following description, unless expressly mentioned in this.

embodiment

• Figur 1 eine Draufsicht auf eine Verschließmaschine und
• Figur 2 nur andeutungsweise eine mögliche Schaltungsanordnung.

In the following the invention will be explained in more detail with reference to an embodiment shown in the drawing. In the drawing shows:

• Figure 1 is a plan view of a closing machine and
• Figure 2 only hinted at a possible circuit arrangement.

FIG. 1 of this drawing shows a simplified plan view of the rotary gyroscope 1 of a closing machine 2, which has an inlet star 3 and an outlet star 4. In the right-hand plane of the drawing, a part of the rotor 5 of a filling machine 6 arranged upstream, for example, in block construction, can still be seen. These machines used by way of example are intended for treating containers such as bottles 7 and the like and have stationary or height-movable base plates 8 for supporting or receiving these bottles 7 during the treatment process.

As can be seen from the drawing, test points 9 on the inlet side and 10 on the outlet side can be seen in the region of the inlet star 3 and the outlet star 4, which can be equipped with suitable counters. Thus, at the first test point 9 in a first test measure, the number of successive incoming and outgoing containers in the form of bottles 7 is determined. At the further check point 10 arranged on the outlet side, the number of consecutively expiring bottles 7 is registered in a second test measure. In a change in the number of expiring bottles 7 with respect to the number of inlet ends immediately a corresponding fault message, which then preferably triggers a stop signal for the capping machine. However, such a shutdown or stop action can also be initiated delayed by several jamming signals stored in succession and after a certain number or frequency of such signals, the stop action is initiated. It is of course possible to let work before the switched filling machine 6 after such a verification process, wherein in the unillustrated inlet area and outlet area 11 inspection points are incorporated 9,10. Also, a check point 9 of the capping machine in the outlet region of the filling machine 6 and vice versa be arranged. A further measure can be in the coupling arrangement of such test points 9,10 for several machines. This is particularly important for several interconnected treatment machines in block design of importance. In such a case, it may be expedient to separately determine the number of bottles 7 fed in on the inlet side and discharged on the outlet side for each treatment machine and, in the event of a malfunction signal of any machine, sequentially switch off the treatment machines arranged one behind the other in the direction of passage, preferably after their emptying. In this way, the entire filling block can be run empty and checked. It may also be important that the machines arranged behind one another in the direction of passage of the bottles 7 are stopped at the earliest after their complete emptying. The test sections located between the test points 9, 10 may additionally be subdivided into further individual test sections and evaluated separately or else in Connection with the other test sections signal technically work together and be evaluated together. For the input and output side counting, logging and constant comparison of passing through the test sections container 7, a non-illustrated central control unit is provided, the evaluation results are used to control the relevant treatment machine 2.6. The control technology provided for this purpose control device has a processing device for storing a signal corresponding to the present in a test section possible number of containers or related treatment stations, for receiving inputs and counts of determined at the check bottles 7 and for storing the number of containers determined and to compare these data to Delivery of a fault signal. The test points 9, 10 can be equipped with photocell counters, counting cameras, or also reflection-responsive sensors or the like. Furthermore, according to the illustration in FIG. 2, a pulse can be opened in conjunction with the machine cycle, which pulse is then bridged via the measuring devices and push buttons as well as a shift register. If such a bridge is missing, there is a corresponding fault.

In particular, in an expected rough operation such as in the beverage industry, the measuring devices may be additionally formed with a cleaning arrangement. This may be a source of fluid for venting or blasting phototechnical equipment to the measuring equipment or else a cleaning device.

Claims (12)

Method for checking an automatic container treatment plant such as filling, sealing and labeling machine for correct and error-free treatment of containers to be processed such as bottles, cans and the like, characterized in that the number of consecutively supplied container (7) and with a second test measure the number of consecutively leaking container (7) registered and when changing the number of expiring compared to the number of supplied containers (7) a fault message and this for immediate or later action for the operation of the treatment plant (2,6) utilized becomes. A method according to claim 1, characterized in that the fault message triggers an immediate stop signal for the treatment machine (2,6). Method according to one of the preceding claims, characterized in that a plurality of fault signals are stored and after receipt of a determinable number or frequency of such signals, a stop signal for the treatment machine (2,6) is triggered. Method according to one of the preceding claims, characterized in that cooperating in a treatment plant treatment machines (2,6), the number of supplied and outgoing container (7) determined separately on the machine side and at a fault signal from any machine (2,6) in a row Switched treatment machines (2,6) are sequentially switched off in the direction of passage. Method according to one of the preceding claims, characterized in that the individual successively arranged treatment machines (2,6) are switched off at the earliest after their emptying. Method according to one of the preceding claims, characterized in that the test sections located between the test points (9, 10) can be subdivided and individually evaluated into individual further test sections. Method according to one of the preceding claims, characterized in that the individual test sections can be evaluated jointly. Method according to one of the preceding claims, characterized in that for the input and output side counting, logging and constant comparison of passing through the test sections container (8) a central control device is provided, the evaluation results for controlling the treatment machine (2,6) , Device for carrying out the method according to one of the preceding claims, characterized in that the control device has a processing device for storing a signal corresponding to the number of containers present in a test section, for receiving inputs and counting pulses of the containers (7, 10) determined at the test points (9, 10) ) and for storing the determined number of containers and for adjusting these data for outputting a fault signal. Apparatus according to claim 9, characterized in that the test points (9,10) have at least one photocell counter and / or at least one counting camera. Device according to one of the preceding claims, characterized in that there are provided at the test points (9,10) responsive to reflection sensor. Device according to one of the preceding claims, that the counting means are formed with a cleaning arrangement and this has a fluid source.

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