Abstract: In a test leakage device (10) for testing the functionality and for calibrating a gas leak detection device having an evacuable test chamber (34) for receiving a test object and the test leakage device (10), wherein the test leakage device (10) has a base (12), a cover (16) and at least one side wall (14) connecting the base (12) to the cover (16), which surround an interior space (20) which can be filled with a test gas or a test liquid, provision is made for the base (12) to have a membrane (24) which is permeable to the test gas or constituents of the test liquid, and for mutually opposite sections of that inner side (18) of the side wall (14) which faces the interior space (20) to be at a greater distance from one another in the region of the cover than in the region of the base.

Abstract: A sniffing leak-detection device (10) with a measuring-gas inlet (28) for taking in measuring gas at a measuring location, wherein the measuring gas is to be investigated for the presence of a possible leakage gas at the measuring location, a reference-gas inlet (30), different from the measuring-gas inlet (28), for taking in reference gas from the surroundings of the measuring location, a gas-feeding pump (16), feeding the gas taken in through the measuring-gas inlet (28) and through the reference-gas inlet (30), a switching valve (20), which is connected to the gas-feeding pump (16) by a gas-conducting path (22) and is connected in a gas-conducting manner to the reference-gas inlet (30) and to the measuring-gas inlet (28) and formed in such a way that, dependent on the switching state of the switching valve (20), the gas-feeding pump (16) takes in gas through the measuring-gas inlet (28) and/or through the reference-gas inlet (30), and a gas sensor (18) for analyzing the gas taken in by the gas-feeding pump

Abstract: A vacuum leak detection system may comprise a test chamber unit having a test chamber gas inlet and a test chamber gas outlet, a gas detection unit having a gas detection gas inlet and a gas detection gas outlet, and a gas control unit connecting the test chamber gas inlet and the test chamber gas outlet to the gas detection gas inlet and the gas detection gas outlet, which is connected to the test chamber unit and to the gas detection unit, and which has separate gas line paths for optionally connecting the gas inlets and the gas outlets of the test chamber unit and the gas detection unit, wherein the gas control unit has a third gas inlet which is open towards the atmosphere and which can be connected to the test chamber gas inlet via a gas line path running through the gas control unit.

Abstract: A method for detecting a test gas escaping from a leak in a test specimen that uses an optical sensor to measure optical radiation reflected or emitted from the test specimen or its background at different points in time and comparing the measured optical radiation at the different points in time to determine whether a leak exists.

Abstract: A test leak device has an interior surrounded by a housing that can be filled with a test fluid. The housing has a through-opening connecting the interior to the outer surroundings of the test leak device and a membrane that can be brought into or onto the through-opening. The membrane is permeable to the test fluid or to components of the test fluid. The membrane is part of a membrane element that seals the through-opening. The membrane element has a carrier element that is designed to be releasably fastened to the housing to close the through-opening when fastened so that the interior can be filled with test fluid through the through-opening. The carrier element also has an outlet duct that is sealed by the membrane, allowing only the test fluid or its components to escape through the membrane to the outside.

Abstract: A method for a tightness test of a test object filled with a liquid, said test object having an internal pressure which is lower than atmospheric pressure, comprising the following steps: inserting the test object into a test chamber, evacuating the test chamber to a pressure which is lower than the internal pressure inside the test object, drawing off the test chamber residual gas components together with gas components desorbing from a wall of the test chamber and parts of the liquid escaping from the test object through a leak in the latter without any carrier gas being fed to the test chamber from outside, transporting the drawn-off residual gas components together with the parts of the liquid escaped from the test object to a detector, and detecting parts of the liquid escaped through a leak in the test object by means of a detector.

Abstract: The invention relates to a device for vacuum leak detection, comprising a vacuum pump (18), a test chamber (12) which is designed to accommodate the test specimen and can be evacuated by means of the vacuum pump (18), and a gas detector (16) which detects the gas evacuated from the test chamber (12) by means of the vacuum pump (18), wherein the test chamber (12) has a plurality of vacuum connections (26) provided with the vacuum pump (18) in order to evacuate the test chamber (12), characterized in that a common pump volume (28) which is connected to the vacuum connections (26) is fluidically provided between the vacuum connections (26) and the vacuum pump (18) and is evacuated by means of the vacuum pump (18).

Abstract: A vacuum leak detector has a housing enclosing a suction chamber, a vacuum pump evacuating the suction chamber, and a gas detector connected to the suction chamber. The housing has a test leak with a selectively gas-permeable membrane. The test leak connects the outer atmosphere of the housing with the suction chamber.

Abstract: In a leak detection device comprising a gas analyzer, a vacuum pump, a first gas inlet, and a second gas inlet, it is provided that a first multi-way valve is connected to a first inlet and at least a first and a second outlet, wherein the inlet is connected to the first gas inlet, a second multi-way valve is connected to first inlet and at least a first and a second outlet, wherein the inlet is connected to the second gas inlet, wherein the two first outlets of the two multi-way valves are connected to the gas analyzer, and the two second outlets of the two multi-way valves are connected to the vacuum pump.

Abstract: The invention relates to an automated leak detection method using a robotic gas leak detector (56), characterized by the steps of: a) moving the probe tip (25) of a probe (22) guided by a robot (32) to a test site (20) to be examined, using a robot (32); b) recording a measurement signal from gas recorded by the probe tip (25) by means of a gas detector (24); c) detecting at least one first measurement value of the measurement signal at at least one first measurement time; d) detecting the first measurement time and assigning the first measurement time to the first measurement value; e) detecting and assigning a first measurement position of the probe (22) corresponding to the first measurement time; f) repeating steps a)-e) for at least one subsequent second measurement time; g) correlating the measurement values with each of the measurement positions of the probe (22) in order to be able to use the measurement values to assess at which measurement position an extreme value of the measurement signal, whic

Abstract: Sniffing leak detector including a handheld device with a sniffer tip probe including a sample gas inlet, a reference gas inlet, a gas analyzer, and a switching valve adapted to alternatingly connect the sample gas inlet to the gas analyzer and the reference gas inlet to the gas analyzer in a gas conducting manner, such that either the gas drawn through the sample gas inlet or the gas drawn through the reference gas inlet is analyzed by the gas analyzer, characterized in that the reference gas inlet is arranged in a remote distance from the sniffer tip probe and a reference gas conduit connecting the reference gas inlet and the switching valve includes a buffer chamber adapted to homogeneously mix gas drawn into the buffer chamber through the reference gas inlet with the remaining gas in the buffer chamber.

Abstract: A method for detecting a test gas escaping from a leak in a test specimen that uses an optical sensor to measure optical radiation reflected or emitted from the test specimen or its background at different points in time and comparing the measured optical radiation at the different points in time to determine whether a leak exists.

Abstract: The invention relates to a film chamber (10) for testing the sealing tightness of a test specimen containing a test fluid, the film chamber comprising: at least one vacuum connection (20) which can be connected to a vacuum pump (32) and a gas detector (36); at least one flexible wall region (14) that defines a film chamber volume; and a frame (12) that surrounds the flexible wall region (14) on the outside in order to seal the film chamber volume. The film chamber is characterized in that: the vacuum connection (20) is located in a region arranged centrally with respect to the frame (12) and is radially outwardly surrounded by the frame (12); and at least one gas inlet (22, 30) for supplying a carrier gas is located in the region of the outer frame in such a way that the carrier gas flows through the gas inlet through the film chamber volume along the flexible wall region (14) radially from the outside inwardly to the vacuum connection (20).

Abstract: A gas leak detection device for identifying a gas leak in a test object, comprising a connector (20) for the test object or a test chamber accommodating the test object, a vacuum pump (16, 18) connected to the connector (20) for evacuating the test object or the test chamber, a gas detector (12) connected to the vacuum pump (16, 18) and the connector (20) and configured for detection of a first test gas and for integral leak detection or for localized leak detection of a gas leak in the test object according to the spraying principle during continuous operation of the vacuum pump (16, 18), a gas pressure sensor (24) connected to the vacuum pump (16, 18) and the connector (20) and configured for integral measurement of the total pressure increase at the connector (20) according to the pressure increase method and/or the partial pressure increase of at least one second test gas different from the first test gas at the connector (20) according to the partial pressure increase method, and a blocking device (26) c

Abstract: Sniffing leak detector including a handheld device with a sniffer tip probe including a sample gas inlet, a reference gas inlet, a gas analyzer, and a switching valve adapted to alternatingly connect the sample gas inlet to the gas analyzer and the reference gas inlet to the gas analyzer in a gas conducting manner, such that either the gas drawn through the sample gas inlet or the gas drawn through the reference gas inlet is analyzed by the gas analyzer, characterized in that the reference gas inlet is arranged in a remote distance from the sniffer tip probe and a reference gas conduit connecting the reference gas inlet and the switching valve includes a buffer chamber adapted to homogeneously mix gas drawn into the buffer chamber through the reference gas inlet with the remaining gas in the buffer chamber.

Abstract: A vacuum leak detection system may comprise a test chamber unit having a test chamber gas inlet and a test chamber gas outlet, a gas detection unit having a gas detection gas inlet and a gas detection gas outlet, and a gas control unit connecting the test chamber gas inlet and the test chamber gas outlet to the gas detection gas inlet and the gas detection gas outlet, which is connected to the test chamber unit and to the gas detection unit, and which has separate gas line paths for optionally connecting the gas inlets and the gas outlets of the test chamber unit and the gas detection unit, wherein the gas control unit has a third gas inlet which is open towards the atmosphere and which can be connected to the test chamber gas inlet via a gas line path running through the gas control unit.

Abstract: In a test leakage device (10) for testing the functionality and for calibrating a gas leak detection device having an evacuable test chamber (34) for receiving a test object and the test leakage device (10), wherein the test leakage device (10) has a base (12), a cover (16) and at least one side wall (14) connecting the base (12) to the cover (16), which surround an interior space (20) which can be filled with a test gas or a test liquid, provision is made for the base (12) to have a membrane (24) which is permeable to the test gas or constituents of the test liquid, and for mutually opposite sections of that inner side (18) of the side wall (14) which faces the interior space (20) to be at a greater distance from one another in the region of the cover than in the region of the base.

Abstract: A method for determining the relative orientation of a gas leak relative to a sniffer leak detector includes a handpiece with a sniffer probe and a test gas inlet, a reference gas inlet disposed at the handpiece remote from the test gas inlet, a gas analyzer, and a switching valve. The switching valve is configured to alternately connect the test gas inlet and the reference gas inlet with the gas analyzer. Either gas is analyzed by the gas analyzer. Steps include supplying gas sucked in through the test gas inlet to the gas analyzer, determining the test gas concentration, switching the switching valve, supplying gas sucked in through the reference gas inlet to the gas analyzer, analyzing the test gas concentration, forming a differential signal, changing the spatial orientation of the handpiece, repeating the first through sixth steps, and determining whether the differential signal has changed.

Abstract: A method for a tightness test of a test object filled with a liquid, said test object having an internal pressure which is lower than atmospheric pressure, comprising the following steps: inserting the test object into a test chamber, evacuating the test chamber to a pressure which is lower than the internal pressure inside the test object, drawing off the test chamber residual gas components together with gas components desorbing from a wall of the test chamber and parts of the liquid escaping from the test object through a leak in the latter without any carrier gas being fed to the test chamber from outside, transporting the drawn-off residual gas components together with the parts of the liquid escaped from the test object to a detector, and detecting parts of the liquid escaped through a leak in the test object by means of a detector.

Abstract: A method for distinguishing a test gas escaping from a leak in a test object (21) from an interfering gas in the environment of the test object (21) during sniffing leak detection, having the steps: suctioning gas from the environment of the test object (21) in the region of the outer surface of the test object by means of a sniffing tip, which has a suction opening (14), which is connected, for gas conduction, to a sensor (18), which is designed to determine the test gas partial pressure of the test gas in the suctioned gas flow; varying, with periodic repetition, the flow intensity of the suctioned gas flow; setting a total pressure of the suctioned gas at the sensor (18) of at least 80 percent of the total pressure of the gas in the atmosphere (23) surrounding the test object (21); avoiding fluctuations of the total pressure of the suctioned gas at the sensor (18) of more than 10 percent; measuring the test gas partial pressure of test gas contained in the suctioned gas flow by means of the sensor (18); in