| CPC G01N 27/409 (2013.01) [B23K 9/32 (2013.01); G01N 1/2205 (2013.01); G01N 1/2273 (2013.01); G01N 1/4077 (2013.01); G01N 27/4065 (2013.01); G01N 27/407 (2013.01); G01N 2001/4088 (2013.01)] | 18 Claims |
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1. A handheld portable oxygen monitor for monitoring oxygen in a weld zone, comprising:
an oxygen monitor housing having a front, a back, a top, a bottom, and two sides extending between the front and back and the top and bottom;
the housing having a hand-holding portion that is sized and configured to be held in the palm of a hand of a monitor user, with the user's thumb engaging one of the two sides and the user's remaining fingers engaging the other of the two sides;
a user interface on the front of the housing, the user interface including an oxygen monitor display and one or more user interface buttons;
a gas inlet port on the housing configured to receive a gas;
one or more oxygen sensors within the housing operate to receive the gas from the gas inlet port, detect oxygen in the gas, and generate oxygen sensor outputs indicative of oxygen levels in the gas;
a pump within the housing having a pump inlet in fluid communication with the gas inlet port and a pump outlet in fluid communication with the one or more oxygen sensors;
the oxygen monitor being characterized by one or more improvements selected from the group consisting of:
(1) a replaceable dust filter element removably disposed in a gas inlet pathway within the housing extending from the gas inlet port to the one or more oxygen sensors, the replaceable dust filter element being formed as a sintered metal disk and being removably seated in a filter receptacle of corresponding size and shape that forms part of the gas inlet pathway, the filter receptacle being formed as part of the housing and covered by a removable cover of the housing having an interior surface formed with a tubular socket that receives the filter receptacle when the removable cover is secured as part of the housing, the gas inlet port being disposed on the removable cover and forming part of a closed gas pathway that includes the tubular socket in receiving engagement with the filter receptacle having the replaceable dust filter element disposed therein;
(2) a modular sensor system comprising an oxygen sensor module that includes the one or more oxygen sensors and a sensor module circuit board on which the one or more oxygen sensors are mounted, the sensor module circuit board including a plug-in connector providing electrical connectivity to a main circuit board of the portable handheld oxygen monitor, the oxygen sensor module being removably mounted in the housing by way of the sensor module circuit board being removably mounted to a circuit board holder, such that the oxygen sensor module is interchangeable with other oxygen sensor modules having sensor module circuit boards with a common form factor by removing the sensor module circuit board of the oxygen sensor module from the circuit board holder and inserting therein a different sensor module circuit board of one of the other oxygen sensor modules, the one or more oxygen sensors each being configured to sense oxygen within a specified oxygen sensitivity range and having dedicated gas inlet and outlet ports;
the modular sensor system further comprising configurable internal gas pathway components within the housing, the configurable internal gas pathway components comprising dedicated gas inlet and outlet tubes connected to the dedicated gas inlet and outlet ports of the one or more oxygen sensors; and
(3) an oxygen monitor communication interface, an oxygen monitor storage, and an oxygen monitor controller, the oxygen monitor controller operating to perform program operations that provide an application program interface for a remote device in communication with the oxygen monitor that enables the remote device to (a) control one or more operations of the oxygen monitor, (b) receive real-time oxygen monitoring data from the oxygen monitor for display on the remote device, (c) upload logging event data from the oxygen monitor storage, (d) retrieve static system information including one or more of unit serial number, hardware version, firmware version, manufacturing data, oxygen sensor serial number, factory calibration values, current calibration values and calibration dates, and runtime state information including one or more of status messages, fault codes, core/stack dump data and troubleshooting information generated during device operations, from the oxygen monitor storage, and (e) perform firmware updates on the oxygen monitor to modify its programming stored in a non-volatile code memory component of an oxygen monitor memory.
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