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Test disc, test system and method for testing the seal of a glove which is installed in a port of an isolator, a glove and an isolator for use with the test system

a test system and glove technology, applied in the direction of fluid tightness measurement, structural/machine measurement, instruments, etc., can solve the problems of frequent and time-consuming training, large known measures, and complex working sequences, so as to increase the efficiency of human/machine interface, reduce the susceptibility to errors, and increase the system safety and reliability

Inactive Publication Date: 2015-07-09
KEIL MICHAEL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The invention is a test system and method for testing gloves to improve safety and extend their lifespan. The system can simultaneously test multiple gloves using multiple test discs, and the data collected can be buffered, evaluated, and stored in a database for analysis. This expands the evaluation method and allows for better decision-making based on the test results. Overall, this system improves safety and reliability, and optimizes the use of process means, particularly gloves.

Problems solved by technology

However, the known measures have considerable disadvantages:
The working sequences are very complex and require frequent and time-consuming training of personnel who have to be enabled to carry out a multiplicity of manual steps in the predefined sequence with constant quality at all times. The precondition for this are highly motivated employees who act on their own initiative and follow the operating instructions precisely at all times, even when there is no supervision and when deadlines are pressing.
Nevertheless, infringements of the regulations due to negligence or unintention are unavoidable.
Many data items with a safety-relevant character, in particular the running period of use and the conditions of use for each individual glove (glove history) are not detected since until now this would have been possible only by means of documentation of a manual kind, which is therefore very time-consuming and susceptible to errors.
The previously developed methods for testing the integrity of isolators, in particular of the gloves installed in the glove ports, are very time-consuming and laborious, irrespective of whether the testing is routine testing or unscheduled owing to an incident.
The high degree of expenditure in terms of time and work during the application of these methods results in a series of further disadvantages: the methods cannot be integrated into ongoing production sequences.
When the gloves are removed and installed again, they can be damaged.
Damage which only occurs during the reinstallation after the testing, and resulting leaks, cannot be detected.
Since the sequence of the gloves is generally not monitored during the removal and reinstallation, it is not readily possible to produce a glove history with these methods.
Although methods which permit testing of gloves in the installed state have already been described, the equipment which has been available for these purposes until now is cumbersome and heavy and accordingly difficult to handle.
A first disadvantage of this solution is the use of relatively heavy, large measurement chambers whose own integrity, that is to say the gas-tight coupling to the outer wall of the isolator, has to be firstly ensured at high cost.
In addition, as a result of their intrinsic weight they load the isolator wall very unevenly (tensile stress in the upper part, compressive stress in the lower part) and therefore can themselves give rise to integrity problems, particularly leakages in the region of the seals of the isolator port.
The time-consuming coupling and uncoupling of the measurement chamber leads also to productivity losses since not only during the measurement but also during these equipping times the port cannot be used for its intended purpose.
A second disadvantage is that although individual identification elements are provided for each measurement chamber and each glove, there is no assignment to the ports.
It is therefore not possible to detect and document the position of the individual gloves automatically.
In order to be able to trace back the production processes for which a glove is used and to track with which chemicals it has been in contact and for how long, manual documentation would have to be carried out to determine at which isolator ports the glove was installed during its previous period of use, which is impractical.
It is therefore virtually impossible to define individually the residual period of use of the glove on the basis of its actual loading with chemicals.
Even if different, process-dependent periods of use are known for the gloves from reliable experiments, for safety reasons the shortest change interval is always selected, which gives rise to further productivity losses owing to the expenditure of time for the premature changing of a glove and to higher costs for the purchase of gloves.
The somewhat complicated manufacture of the seal-forming connection of the isolator port and the test disc by manual actuation of the screw mechanism and the production of the excess pressure which is necessary for testing by means of the connection to an external pressure bottle and / or pump are somewhat disadvantageous.

Method used

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  • Test disc, test system and method for testing the seal of a glove which is installed in a port of an isolator, a glove and an isolator for use with the test system
  • Test disc, test system and method for testing the seal of a glove which is installed in a port of an isolator, a glove and an isolator for use with the test system
  • Test disc, test system and method for testing the seal of a glove which is installed in a port of an isolator, a glove and an isolator for use with the test system

Examples

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exemplary embodiment 1

[0056]A test of the seal of the gloves installed in the ports of the isolator of a pharmaceutical system is to be carried out. The isolator volume is at atmospheric pressure during the test.

[0057]In good time before the test it is ensured that all the ports have a uniquely defined identification element. RFID elements are selected as the identification element, said elements being let irreversibly into a bore at the edge of the port without compromising the integrity of the isolator volume. As a result of this one-time marking, the ports can be identified unambiguously during all the tests which occur during their period of use.

[0058]In this exemplary embodiment, the gloves can already be equipped by the manufacturer with RFID elements on a standard basis and can therefore also be identified unambiguously.

[0059]Other identification elements (barcodes, engraving, impressed numbers) can also be used, but they give rise to increased expenditure during evaluation.

[0060]A sufficient numb...

exemplary embodiment 2

[0069]A further seal test of the gloves installed in the ports of the isolator of a pharmaceutical system is to be carried out in a way analogous to the task described in the exemplary embodiment 1.

[0070]The equipping of the ports and of the gloves with identification elements as described in exemplary embodiment 1 is ensured.

[0071]In good time before the test it is determined that the ports have a conically tapering shape, with the result that a test disc 1 which forms a seal from the inside to the outside cannot be reliably secured in the port. However, the outwardly protruding attachment connector 18 of the port is suitable for attaching a test disc. The embodiment 1′ of the test disc which forms a seal from the outside to the inside (illustrated in FIGS. 3a and 3b) is therefore selected. The test disc 1′ is equipped with an expansion in the form of a support ring 17, the internal dimensions of which are somewhat larger than the external dimensions of the attachment connector 18,...

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Abstract

A test system and a corresponding method for testing the seal of a glove which is installed in a port of an isolator, including a test disc which can be connected in a hermetically sealed fashion to the port. The glove and test disc define a sealed glove volume which can be placed under excess pressure. The test disc has a pressure-measuring device with a microprocessor and a memory for recording and storing a pressure profile in the glove volume and a data interface. The glove and port have identification elements which are read by a reading device of the test disc and information concerning the pressure profile along with the identities of the glove and port are transmitted wirelessly to an evaluation unit which estimates and records a residual period of use of the glove. A plurality of gloves in ports can be tested simultaneously.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application claims the benefit of priority under 35 U.S.C. §365(c) and §120 as a continuation of PCT / EP2013 / 074420 filed on Nov. 21, 2013, which claims the benefit of priority to European Patent Application No.: EP 121 961 95.7 filed Dec. 7, 2012. The full contents of the International Application are incorporated herein by reference.NOTICE OF COPYRIGHTS AND TRADE DRESS[0002]A portion of the disclosure of this patent document contains material which is subject to copyright protection. This patent document may show and / or describe matter which is or may become trade dress of the owner. The copyright and trade dress owner has no objection to the facsimile reproduction by anyone of the patent disclosure as it appears in the Patent and Trademark Office patent files or records, but otherwise reserves all copyright and trade dress rights whatsoever.FIELD OF THE INVENTION[0003]The disclosure relates to a test disc and to a test system havin...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G01M3/32
CPCG01M3/3218B25J21/02G01M3/027G21F7/053
Inventor KEIL, CHRISTOPHERKEIL, MICHAEL
Owner KEIL MICHAEL
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