Patent Number: 
Section: claims

1. A test system having at least one test disc (1, 1′), an isolator and an evaluation unit (21) for testing the seal of a glove, which is installed in a particular port of the isolator, wherein the test disc (1, 1′) is connected to the port in a hermetically sealed manner, wherein the glove and the test disc (1, 1′) define a glove volume, which is placed under excess pressure by the test disc (1, 1′), wherein the test disc (1, 1′) has a pressure-measuring device with a microprocessor (9) and a memory for recording and storing a glove volume pressure profile and a data interface (14), wherein the test disc (1, 1′) is configured by means of a reading device (15) to determine both the identity of the glove by reading a first identification element, which is arranged on the glove, and the identity of the port by reading a second identification element, which is arranged on the port. 2. The test system according to claim 1, further including a radially-expanding sealing device (2, 2′) and a first micro-air pump (12) to expand the sealing device (2, 2′). 3. The test system according to claim 2, further including a second micro-air pump (13) with a pre-filter (6) to fill the glove volume. 4. The test system according to claim 1, further including an electrical energy source in the form of an accumulator. 5. The test system according to claim 1, wherein the reading device (15) has an RFID module, CCD sensors or laser sensors. 6. The test system according to claim 1, wherein the test disc (1, 1′) has a control device for automatically setting a pressure in the glove volume. 7. The test according to claim 1, wherein the pressure profile and information regarding the identification element can be in particular wirelessly transmitted, in an encrypted format where appropriate, via the data interface (14) to an evaluation unit of a test system, wherein the data interface has in particular a WiFi module, a WLAN module, a Bluetooth module or another radio-based transceiver module. 8. The test system according to claim 1, wherein the evaluation unit (21) comprises a storage unit and an output unit and can be connected to a user database (22), wherein the test system is configured to assign the pressure profile with the identification data precisely to one glove and one port, and assess a status and/or estimate a residual period of use of the glove. 9. The test system according to claim 1, wherein the evaluation unit (21) has WiFi module, WLAN module, Bluetooth module or other radio-based transceiver module. 10. The test system according to claim 1, wherein process-related data about the use of the glove can be stored in the evaluation unit (21) and taken into account in the evaluation. 11. The test system according to claim 1, further including a plurality of test discs for simultaneously testing a plurality of gloves, wherein the test discs communicate with the evaluation unit. 12. A method for assessing the seal of a glove using a test system according to claim 1,wherein the test disc (1, 1′) is connected to the port in a hermetically sealed manner such that the glove and the test disc (1, 1′) define a glove volume, which is then placed under excess pressure by the test disc (1, 1′), wherein the pressure profile is recorded by the test disc (1, 1′) over a predefinable period and identification data of the glove and the port is assigned to the pressure profile by reading a first identification element arranged on the glove and a second identification element arranged on the port, wherein a pressure drop, which is compared with a limiting value, is determined from the pressure profile. 13. A method according to claim 12, wherein historical data, in particular process data, is taken into account during the evaluation of the state. 14. A method according to claim 12, wherein the pressure profiles for a plurality of gloves are received simultaneously from a plurality of test discs (1, 1′) and processed, wherein the respective pressure profiles are assigned unambiguously to a corresponding glove and port. 15. A method according to claim 12, wherein removal of the test disc (1, 1′) from the port is prevented if a defect in the glove is detected. 16. A method according to claim 12, wherein a pressure profile, which is recorded for a specific glove at an earlier point in time, is compared with a pressure profile, which is recorded for said glove at a later point in time, wherein said comparison is taken into account for the estimation of a residual period of use.