Optoelectronic dust sensor device
First Claim
1. An optoelectronic dust sensor device, comprising:
- at least one transmitter unit situated inside an injection molded sensor body;
at least one receiver unit operably associated with said transmitter unit and situated inside said sensor body; and
non-parallel test surfaces disposed between said transmitter unit and said receiver unit, and said test surfaces being constituted by an exit surface of said transmitter unit and an entrance surface of said receiver unit, wherein radiation transmitted from said transmitter unit to said receiver unit travels substantially in a beam path outside said sensor body; and
wherein an end face of said sensor body includes an isolated protrusion, at least one isolated protrusion of said end face is situated between said transmitter unit and said receiver unit so that radiation emitted by said transmitter unit and oriented toward said receiver unit passes through said protrusion.
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Accused Products
Abstract
The invention is based on a sensor device having at least one transmitter unit situated inside a sensor body, a receiver unit associated with the transmitter unit and situated inside the sensor body, and an end face that is situated between the transmitter unit and receiver unit and constitutes a boundary surface of the sensor body. According to a first aspect of the invention, it is possible to achieve a compact embodiment with low requirements for assembly-related production tolerances if the transmitter unit and/or the receiver unit is/are comprised of an injection molded part with an incorporated radiation transmitter and/or radiation receiver. According to another aspect of the invention, a radiation transmitted from the transmitter unit to the receiver unit essentially travels in a beam path outside the sensor body. The invention also relates to a use of a sensor device and a vehicle light.
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Citations
2 Claims
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1. An optoelectronic dust sensor device, comprising:
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at least one transmitter unit situated inside an injection molded sensor body; at least one receiver unit operably associated with said transmitter unit and situated inside said sensor body; and non-parallel test surfaces disposed between said transmitter unit and said receiver unit, and said test surfaces being constituted by an exit surface of said transmitter unit and an entrance surface of said receiver unit, wherein radiation transmitted from said transmitter unit to said receiver unit travels substantially in a beam path outside said sensor body; and wherein an end face of said sensor body includes an isolated protrusion, at least one isolated protrusion of said end face is situated between said transmitter unit and said receiver unit so that radiation emitted by said transmitter unit and oriented toward said receiver unit passes through said protrusion. - View Dependent Claims (2)
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Specification