Methods for testing the integrity of a containment sump in contact with a matrix with a testing apparatus are provided. The testing apparatus may include an underground fixture positioned in contact the matrix, a test chamber, a conduit structure providing fluid communication between the underground fixture and the test chamber, and a pressure source for exerting a pressure that is communicated to the underground fixture via the conduit structure. In some embodiments, a method may include: releasing a test media into the containment sump; generating a negative pressure within the testing apparatus for a time period; and testing for the presence of test media within the testing apparatus. In other embodiments, a method may include: releasing a test media into the testing apparatus; generating a positive pressure within the testing apparatus for a time period; and testing for the presence of test media within the containment sump.

The present invention includes: an inspection table configured to support a three-way valve device in such a state that a first opening and a second opening are sealed by a sealing member; a communication hole provided through the inspection table and configured to hermetically communicate with a third opening in a state wherein the three-way valve device is supported by the inspection table; an enclosure configured to cover the three-way valve device to form a sealed space except for the communication part; a helium-gas supply path for supplying a helium gas into the three-way valve device via the communication part and the third opening; a leak tester device configured to determine whether or not there is a leakage of the helium gas into the sealed space; and a helium-gas suction discharge path for suctioning and discharging the helium gas supplied via the third opening and the communication part.

A gas leak detector cartridge includes a cartridge housing that is removably installed in a handheld device. The cartridge housing includes a sensor that detects a presence of a contaminant in a sample gas and is connected to a printed circuit board. The cartridge housing also includes a pump positioned in a manifold and introduces a sample gas to the sensor. The sensor is at least partially inserted into the manifold that includes the pump.

A pump monitoring apparatus comprises a computer. The computer includes a processor and a memory, and the computer executes; a waveform data acquisition section configured to acquire waveform data of a physical quantity indicating an operation state of a vacuum pump; a feature quantity acquisition section configured to acquire a feature quantity of the waveform data; a first mechanical learning section configured to cluster the waveform data based on the feature quantity; a second mechanical learning section configured to read a time-series data group of the clustered waveform data to output predicted waveform data; and an information providing section configured to provide information regarding replacement or maintenance of the vacuum pump based on the predicted waveform data.

Provided is a method of testing for a leak in a fluid system. The method includes submerging at least a portion of an electrically conductive body in an electrolyte solution, with the electrically conductive body and electrolyte solution being in an internal chamber of a device. The method further includes directing an electrical signal to the electrically conductive body, causing a reaction between the electrically conductive body and the electrolyte solution to produce hydrogen. The method further includes injecting the hydrogen into the fluid system for leak detection.

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.

Disclosed is a connecting device for connecting a gas sensor to a gas leak detector. The gas sensor includes an elongate sensor housing. The gas leak detector includes at least one gas connector adapted to be connected to the gas sensor. A guide rail connects to the gas leak detector, engaging with the sensor housing such that the gas connectors engage with at least one complementary second gas connector. A fastening claw includes two elastic spring legs arranged at one of the sensor housing and the gas leak detector. Each of the two spring legs includes a latching boss engaging the frontal end of the gas sensor opposite the second gas connector and a spreading element having two retaining arms. Each retaining arm includes a pulling edge, an inclined insertion portion along which the latching boss grips and pivots the spring leg, and an inclined disengagement portion.

A sniffer probe for a gas analyzer is provided herein, the sniffer probe designed to suction gas and can be connected to the gas analyzer and includes a sniffer tip with a suction opening, such that gas is suctioned through the suction opening along a central perpendicular to the suction opening, and the sniffer tip has at least one elongate gas-guiding element, which is arranged substantially parallel to the central perpendicular and distally protrudes beyond the suction opening.

A sniffer leak detector is provided herein, including a sniffer probe and a vacuum pump which are connected to each other by a gas flow path, a gas analyzer arranged along the gas flow path and analyzes the gas taken in by the vacuum pump through the sniffer probe. The sniffer leak detector further includes a distance sensor that detects the distance between the sniffer probe and the test object, and a control is linked to the distance sensor. The control is designed to vary the carrier gas flow transported along the gas flow path, depending on the measured distance.

A sniffer probe is provided for a leak detector for checking the leak-tightness of gat object to be tested by means of a tracer gas. The sniffer probe includes a sniffer end piece that is configured to be connected to a pumping device of the leak detector, and a handle bearing the sniffer end piece, a capacitive proximity sensor including at least one handling detection electrode that is arranged in a grip portion of the handle, the capacitive proximity sensor being configured to send a handling detection signal that is associated with the at least one handling detection electrode to a processing unit of the leak detector in order to control the suction into the sniffer end piece according to the handling detection signal. A leak detector and a leak detection method for checking the leak-tightness of an object to be tested by means of a tracer gas are also provided.