A microarray chip imaging detector comprises a housing configured to receive a microarray chip. The detector includes a laser assembly supported by the housing and oriented at an angle relative to the microarray chip, the laser assembly configured to transmit an excitation beam along a first axis to samples on the microarray chip. The detector also includes a camera supported by the housing and positioned along a second axis, the camera configured to receive fluorescent light emitted from fluorophores in the samples on the microarray chip, the second axis oriented at an angle less than 30 degrees relative to the first axis. The housing includes a plurality of baffles positioned between the microarray chip and the camera, and a plurality of laser beamstops to receive the excitation beam reflected off the microarray chip.

A protection device for an oil-smoke sensor has a protection housing having two ends and an inner chamber; the first end having a first opening for receiving a probe of the oil-smoke sensor and in communication with the inner chamber; a second opening is disposed on the second end which is opposite to the first opening and in communication with the inner chamber. Because the probe is sealing mounted in the first opening, the probe will not be directly exposed in oil-smoke flow. The protective device is mounted such that the axial direction of the protective device is vertical to the oil-smoke flow direction. Therefore, the inner chamber of the protection housing has a pressure with respect to the oil-smoke flow that tangentially flows at a high speed, and the oil-smoke can only be diffused into the protection housing, thus, the probe is much less likely to be contaminated.

A protection device for an oil-smoke sensor has a protection housing having two ends and an inner chamber; the first end having a first opening for receiving a probe of the oil-smoke sensor and in communication with the inner chamber; a second opening is disposed on the second end which is opposite to the first opening and in communication with the inner chamber. Because the probe is sealing mounted in the first opening, the probe will not be directly exposed in oil-smoke flow. The protective device is mounted such that the axial direction of the protective device is vertical to the oil-smoke flow direction. Therefore, the inner chamber of the protection housing has a pressure with respect to the oil-smoke flow that tangentially flows at a high speed, and the oil-smoke can only be diffused into the protection housing, thus, the probe is much less likely to be contaminated.

A protection device for an oil-smoke sensor comprises a protection housing (1) having a first end, a second end, and an inner chamber (2); the first end having a first opening (3) for receiving a probe (5) of the oil-smoke sensor and in communication with the inner chamber (2); a second opening (4) is disposed on the second end which is opposite to the first opening (3) and in communication with the inner chamber (2). Because the probe (5) is sealing mounted in the first opening (3), the probe (5) will not be directly exposed in oil-smoke flow. When in use, the protective device is mounted in a manner that the axial direction of the protective device is vertical to the oil-smoke flow direction. Therefore, the inner chamber of the protection housing has a pressure with respect to the oil-smoke flow that tangentially flows at a high speed, and the oil-smoke can only be diffused into the protection housing, thus, the probe is much less likely to be contaminated; and the protection device has a good effect in preventing dust and oil-smoke pollution.

A protection device for an oil-smoke sensor comprises a protection housing (1) having a first end, a second end, and an inner chamber (2); the first end having a first opening (3) for receiving a probe (5) of the oil-smoke sensor and in communication with the inner chamber (2); a second opening (4) is disposed on the second end which is opposite to the first opening (3) and in communication with the inner chamber (2). Because the probe (5) is sealing mounted in the first opening (3), the probe (5) will not be directly exposed in oil-smoke flow. When in use, the protective device is mounted in a manner that the axial direction of the protective device is vertical to the oil-smoke flow direction. Therefore, the inner chamber of the protection housing has a pressure with respect to the oil-smoke flow that tangentially flows at a high speed, and the oil-smoke can only be diffused into the protection housing, thus, the probe is much less likely to be contaminated; and the protection device has a good effect in preventing dust and oil-smoke pollution.

Disclosed herein is an apparatus comprising: a plurality of locations configured to have probes attached thereto, wherein interaction between the probes and an analyte generates a signal; an optical system comprising a plurality of collimators; a sensor comprising a plurality of pixels configured to detect the signal; wherein the collimators are configured to essentially prevent light from passing if a deviation of a propagation direction of the light from an optical axis of the collimators is greater than a threshold.

A microarray chip imaging detector comprises a housing configured to receive a microarray chip. The detector includes a laser assembly supported by the housing and oriented at an angle relative to the microarray chip, the laser assembly configured to transmit an excitation beam along a first axis to samples on the microarray chip. The detector also includes a camera supported by the housing and positioned along a second axis, the camera configured to receive fluorescent light emitted from fluorophores in the samples on the microarray chip, the second axis oriented at an angle less than 30 degrees relative to the first axis. The housing includes a plurality of baffles positioned between the microarray chip and the camera, and a plurality of laser beamstops to receive the excitation beam reflected off the microarray chip.

Disclosed herein is an apparatus comprising: a plurality of locations configured to have probes attached thereto, wherein interaction between the probes and an analyte generates a signal; an optical system comprising a plurality of collimators; a sensor comprising a plurality of pixels configured to detect the signal; wherein the collimators are configured to essentially prevent light from passing if a deviation of a propagation direction of the light from an optical axis of the collimators is greater than a threshold.