Harry P. Wertheimer - Findlay OH John C. Miller - Fostoria OH Debojit Barua - Findlay OH Kenneth S. Tyree - Tiffin OH
Assignee:
Allied Corporation - Morristown NJ
International Classification:
G01N 2726
US Classification:
204428
Abstract:
An oxygen sensor (24) having an electrolyte member (72) with a thimble that is held in a metal shell (30) by an insulating member (56). The thimble has an external surface (80) and internal surface (82) that are coated with a conductive material. A sleeve (96) is attached to the metal shell (30) by spot welds (108) and a seal is established therebetween. A terminal member (120) located in sleeve (96) includes a first contact ring (142) that is connected by a spring (148) and cylinder (152) to the external surface (80) and a second contact ring (144) that is connected by a coil spring (146) to the internal surface (82). Terminals (164 and 164')carried by terminal member (120) hold a tubular housing (90) of a heater member (92). Tubular housing (90) has an end (94) that is located in the thimble of electrolyte member (72). When electrical current is supplied to heater member (92) the temperature of the thimble is maintained above a minimum operating temperature of the electrolyte member (72).
Harry P. Wertheimer - Findlay OH John C. Miller - Fostoria OH Debojit Barua - Findlay OH Kenneth S. Tyree - Tiffin OH Craig Bishop - Findlay OH Dave Weber - Toledo OH
Assignee:
Allied-Signal Inc. - Morristown NJ
International Classification:
G01N 2746
US Classification:
204427
Abstract:
A sensor (24) having a metal shell (30) joined to a sleeve (96) to locate a heater (92) in a thimble of an electrolyte member (72). A sealed joint is produced between the sleeve (96) and metal shell (30) to define a sealed reference chamber (118). A porous filter (112) in the sleeve (96) prevents water in environmental air from entering the reference chamber (118). Leads (106') and 106") which pass through the porous filter (112) are connected to terminal (164 and 164'). Terminals (164 and 164') located in a terminal member (120) position a heater (92) within chamber (118) and the electrolyte member (72). Leads (106 and 106. sup. n) which pass through the porous filter are connected to contact rings (142 and 144). Contact rings (142 and 144) are connected to an external and internal coating (80 and 82) on the electrolyte member (72). In response to a signal from a controller (26) electrical current is supplied to the heater (92) to maintain the temperature in chamber (118) above present limits such that changes in the ion conduction through the electrolyte member (72) is accurately measured.
Harry P. Wertheimer - Findlay OH John C. Miller - Fostoria OH Debojit Barua - Findlay OH Kenneth S. Tyree - Tiffin OH
Assignee:
Allied Corporation - Morristown NJ
International Classification:
G01N 2746 G01N 2758
US Classification:
295701
Abstract:
A method of assembling a heated electrochemical sensor (24) for use in sensing exhaust gases in an internal combustion engine (16). A tubular electrolyte member (72) having a closed end (74) is insulated from a metal shell (30). The external surface (80) and internal surface (82) of the electrolyte member (72) are coated with a conductive material. A sleeve (96) retains a terminal member (120) having first (142) and second (144) contact rings located on shoulders (126) and (140). Terminals (164 and 164') are located in slots (160 and 162) in bore (138) on terminal member (120). A tubular heater (92) has an end (93) inserted in bore (138) until contact surfaces (161 and 163) engage terminals (164 and 164'). A coil spring (146) is placed on tubular heater (92) and a wave or washer spring (148) is placed adjacent contact ring (142). Sleeve (96) and shell (30) are brought together and spot welded (108).