Patent ID: 6266998
Filing Date: 2001-07-31
Classification: G01N

Abstract:
A gas concentration measuring arrangement, comprising:a carrier including composite partial elements defining a channel for guiding the gas in the carrier;a multireflection element for guiding light including a first end, a second end, a first surface and an opposite second reflection surface, said multireflection element being supported in said carrier, said carrier including a multireflection element receiving space, said multireflection element being disposed in said multireflection element receiving space;an indicator substance layer provided on said first surface of said multireflection element, said multireflection element being disposed in said multireflection element receiving space with said layer being positioned in said channel for guiding the gas in the carrier, said layer defining a delimiting surface of said channel for contact with the gases to be measured, said indicator substance being a predefined substance for reaction with a predefined gas or gas mixture, said reaction including an indicator color change;an optoelectronic scanning device connected to said carrier, said optoelectronic scanning device sensing a degree of light transmission along said multireflection element said optoelectronic scanning device detecting one of an intensity of a change in color of said indicator and a time until a defined change in intensity of a change in color of said indicator, said optoelectronic scanning device having a radiation source coupled to said first end directed toward said multireflection element to reflect off said first surface and said reflection surface multiple times as the radiation travels from said first end to said second end and with an associated radiation detector coupled to said second end and in optical functional connection with said multireflection element,another multireflection element for guiding light, said another multireflection element having a first end, a second end, a first surface and an opposite second reflection surface, said another multireflection element being supported in said carrier, said carrier including another multireflection element receiving space, said another multireflection element being disposed in said another multireflection element receiving space;another indicator substance layer provided on said first surface of said another multireflection element, said another multireflection element being disposed in said second multireflection element receiving space with said another layer being positioned in said channel for guiding the gas in the carrier, said another layer defining a delimiting surface of said channel for contact with the gases to be measured, said another indicator substance being a predefined substance for reaction with a predefined gas or gas mixture, said reaction including an indicator color change, said another indicator substance being different from said indicator substance qualitatively in a substance dependent manner and/or quantitatively in a concentration-dependent manner; andanother optoelectronic scanning device connected to said carrier, said another optoelectronic scanning device sensing a degree of light transmission along said another multireflection element, said another optoelectronic scanning device detecting one of an intensity of a change in color of said another indicator substance and a time until a defined change in intensity of a change in color of said another indicator substance, said another optoelectronic scanning device having a radiation source coupled to said first end of said another multireflection element directed towards said another multireflection element to reflect off said first surface of said another multireflection element and said reflection surface of said another multireflection element multiple times as the radiation travels from said first end of said another multireflection element to said second end of said another multireflection element and with an associated radiation detector coupled to said second end of said another multireflection element and in optical functional connection with said another multireflection element.