A wavelength conversion device includes a driver, a substrate and a support. The support is disposed between the driver and the substrate. The support is connected to the substrate and the driver. The driver drives the support and the substrate to rotate about a central axis. The support includes at least one through hole. The invention also provides a projection device including a light source system, the aforementioned wavelength conversion device, a light valve, and a projection lens.

An image projector includes an image data input, a controller, a light source, illumination optics, an imaging spatial light modulator (SLM), and imaging optics. The controller is coupled to receive the image data and is operative to determine a thermal state of the image projector. The controller also adjusts the image data depending on the thermal state of the image projector to generate thermally adjusted image data. The thermal state of facilitates adjustment of the imaging data, because the thermal state is indicative of changes in the lightfield incident on the SLM.

A projector includes an optical apparatus, a control circuit board disposed above an upper side of the optical apparatus, a cooling fan disposed near a rear surface outside air inlet port in a case which lies opposite to a projection direction and having an upper surface outside air inlet port configured to let in outside air from an upper surface and a lower surface outside air inlet port configured to let in outside air from a lower surface of the case, and a heat sink provided corresponding to a discharge port of the cooling fan and connected with the optical apparatus, and a flow path resistance on a side facing the lower surface outside air inlet port is smaller than a flow path resistance on a side facing the upper surface outside air inlet port.

The invention relates to a device and a method for projecting a plurality of radiation points onto an object surface, comprising at least one radiation source for emitting electromagnetic radiation, comprising at least one beam path, via which the radiation emitted at least temporarily by the emitters is deflected in the direction of the object surface, and comprising a controller which, in order to change at least one property of the emitted radiation, controls the radiation source according to a light object to be generated on the object surface. The controller is designed in such a way that at least two of the plurality of emitters of the radiation source are each individually controlled in order to change at least one property of the emitted radiation according to the light object to be generated, and at least one optical element for shaping, directing and/or converting the electromagnetic radiation is arranged in the beam path.

A display system includes a display and a light-transmitting member. The light-transmitting member has light-transmitting properties and is disposed to face a display screen of the display to dissipate heat generated by the display to outside of the display. The light-transmitting member has a higher thermal conductivity than quartz.

A projector includes a first cooling target, a cooling device, and an exterior housing that houses the first cooling target and the cooling device. The cooling device includes a first compressor configured to compress working fluid, a condenser configured to condense the working fluid, a first expander configured to decompress the working fluid, a first evaporator configured to change the working fluid to the working fluid in the gas phase with heat transferred from the first cooling target, a first connection pipe configured to lead the working fluid discharged from the first expander to the first evaporator, a second connection pipe configured to lead the working fluid discharged from the first evaporator to the first compressor, and a first case configured to seal the first expander, the first connection pipe the first evaporator, and the second connection pipe on an inside.

A projection apparatus includes a light source apparatus, a first reflective optical element that reflects the light outputted by the light source apparatus, a second reflective optical element that reflects the light reflected off the first reflective optical element, and a projection optical apparatus that enters the light from the second reflective optical element. The projection optical apparatus has an entrance optical path, a deflection member that deflects the direction of the light traveling along the entrance optical path, and a passage optical path along which the light that exits out of the deflection member travels. The extension of the light exiting optical axis of the light source apparatus does not coincide with the extension of the optical axis of the entrance optical path and intersects with the extension containing the optical axis of the passage optical path.

One aspect of a projector according to the present disclosure includes an exterior housing, a first fan, and a first circulator. The exterior housing has a first wall portion, a second wall portion located in a direction opposite to a first direction with respect to the first wall portion, and a third wall portion facing a second direction. The second wall portion has an introduction port, and the third wall portion has a discharge port. The first circulator connects the introduction port and a first suction port of the first fan to each other. A cooling target is located in the first circulator in a direction intersecting with a direction in which air flows from the introduction port to the first suction port.

A projection apparatus includes a light source apparatus, a first reflective optical element that reflects the light outputted by the light source apparatus, a second reflective optical element that reflects the light reflected off the first reflective optical element, and a projection optical apparatus that enters the light from the second reflective optical element. The projection optical apparatus has an entrance optical path, a deflection member that deflects the direction of the light traveling along the entrance optical path, and a passage optical path along which the light that exits out of the deflection member travels. The extension of the light exiting optical axis of the light source apparatus does not coincide with the extension of the optical axis of the entrance optical path and intersects with the extension containing the optical axis of the passage optical path.

A projection display apparatus according to an embodiment of the present disclosure includes: a light source device; an image generation optical system that generates image light by modulating light from the light source device on the basis of an inputted image signal; and a projection optical system that projects the image light generated by the image generation optical system. The light source device includes a light source section, a radiation fin, a vapor chamber on which the light source section and the radiation fin are disposed, and a cooling fan. The light source section, the radiation fin, and the vapor chamber are disposed on a flow path of cooling gas sent out of the cooling fan.