Detector with optical block

The invention claimed is: 1. A detector comprising: a source that emits a beam of first radiant energy toward a sensing chamber when energized; a sensor that detects scattered radiant energy from the sensing chamber; a support member coupled to the source and the sensor; an emitter optical block coupled to the support member and having an emitter body to support the source and at least one emitter optical barrier that is formed integral with the emitter body; and a receiver optical block coupled to the support member and having a receiver body to support the sensor and at least one receiver optical barrier that is formed integral with the receiver body, wherein each of the emitter optical barrier and the receiver optical barrier includes first and second elongated planar segments formed in a respective one of the emitter body and the receiver body, wherein the first and second elongated planar segments of the emitter optical block are formed in the emitter body of the emitter optical block so as to block, in part, the beam, wherein the first and second elongated planar segments of the receiver optical block are formed in the receiver body of the receiver optical block so as to block, in part, the scattered radiant energy, wherein the first and second elongated planar segments of the emitter optical block are joined to form the at least one emitter optical barrier in a first V shape, and wherein the first and second elongated planar segments of the receiver optical block are joined to form the at least one receiver optical barrier in a second V shape. 2. The detector as in claim 1 wherein portions of the support member between the source and the sensor are substantially symmetrical. 3. The detector as in claim 1 further comprising an electrical shield adjacent to the sensor. 4. The detector as in claim 1 further comprising a housing that carries the support member, the emitter optical block supporting the source, and the receiver optical block supporting the sensor, wherein the housing defines the sensing chamber as an internal space between the emitter optical block and the receiver optical block. 5. The detector as in claim 4 wherein the at least one emitter optical barrier of the emitter optical block has an emitter slope angle in a range of sixty degrees to ninety degrees relative to an emitter planar pick surface of the emitter optical block, and wherein the at least one receiver optical barrier of the receiver optical block has a receiver slope angle in the range of sixty degrees to ninety degrees relative to a receiver planar pick surface of the receiver optical block. 6. The detector as in claim 5 wherein each of the emitter slope angle and the receiver slope angle is ninety degrees. 7. The detector as in claim 1 wherein an emitter angle of the at least one emitter optical barrier in the first V shape is formed by the first and second elongated planar segments of the emitter optical block being in a range of forty five to ninety five degrees, and wherein a receiver angle of the at least one receiver optical barrier in the second V shape is formed by the first and second elongated planar segments of the receiver optical block being in the range of one hundred and ten degrees to forty five degrees. 8. The detector as in claim 1 further comprising a metallic shield that, in part, surrounds the sensor. 9. A detector comprising: a molded module having a body; a first spaced apart end portion integrally formed in the body of the molded module, wherein the first spaced apart end portion includes a first set of first and second planar surfaces joined at a first common line to form a first V-shaped barrier; a second spaced apart end portion integrally formed in the body of the molded module, wherein the second spaced apart end portion includes a second set of first and second planar surfaces joined at a second common line to form a second V-shaped barrier; a source that directs a beam of first radiant energy toward the first spaced apart end portion; a receiver that detects scattered incident radiant energy reflected from the second spaced apart end portion: and a depressed region disposed between the first spaced apart end portion and the second spaced apart end portion, wherein the first V-shaped barrier blocks, in part, the beam, and wherein the second V-shaped barrier blocks, in part, the scattered incident radiant energy. 10. The detector as in claim 9 wherein the first set of first and second planar surfaces are oriented at an angle on an order of seventy degrees relative to one another, and wherein the second set of first and second planar surfaces are oriented at the angle on the order of seventy degrees relative to one another. 11. A detector comprising; an optical block that has a body, an emitter zone, and a receiver zone with a central section there between, wherein the central section includes first and second spaced apart barriers formed integral with the body, wherein the first spaced apart barrier is oriented to receive first radiant energy from the emitter zone, wherein the second spaced apart barrier is oriented to receive second radiant energy scattered toward the receiver zone, wherein each of the first and second spaced apart barriers is oriented at a respective slope angle in a range of sixty degrees to ninety degrees with respect to a respective planar surface of the emitter zone and the receiver zone, wherein the first spaced apart barrier includes a first set of first and second planar members joined together to form a first V-shape that blocks, in part, the first radiant energy from the emitter zone, and wherein the second spaced apart barrier includes a second set of first and second planar members joined together to form a second V-shape that blocks, in part, the second radiant energy scattered toward the receiver zone. 12. The detector as in claim 11 wherein the first set of first and second planar members are joined together to form the first V-shape at a first shaped angle relative to one another in the range of seventy degrees plus or minus twenty five degrees, and wherein the second set of first and second planar members are joined together to form the second V-shape at a second shaped angle relative to one another in the range of seventy degrees plus or minus twenty five degrees. 13. The detector as in claim 12 wherein the central section includes a depressed region disposed between the first and second spaced apart barriers.