Abstract: A light source device for an endoscope provided with a noncircular opening which is capable of stabilizing the rate of change of the quantity of illuminating light with the quantity of movement of the stop blade and thereby preventing the hunting phenomenon of the stop blade in close-up or the like. The device comprises: a gate portion with a noncircular opening for linearly changing the quantity of light from the light source formed therein; a stop blade for controlling the quantity of light passing through the noncircular opening of the gate portion; and a motor for driving the stop blade. The noncircular opening has two V-shaped portions having different opening angles. The stop blade is provided with a circular auxiliary opening for passing part of the light therethrough.
Abstract: A biological fluorescence diagnostic apparatus having a device for irradiating a biological tissue with light which excites the tissue to generate fluorescent light, and a device for taking a fluorescence image of the biological tissue passing through an ocular optical system of an endoscope. The apparatus further has a television camera unit including a television camera for taking an ordinary endoscopic observation image passing through the ocular optical system, and a television camera with an image intensifier for taking a fluorescence observation image passing through the ocular optical system after amplifying the light intensity of the image. An optical path switching system which includes a reflective surface is selectively inserted and withdrawn from the optical path of light passing through the ocular optical system so as to selectively produce ordinary and fluorescence images in the television camera unit.
Abstract: An endoscope apparatus has an endoscope having an image guide (103) for guiding first and second image light components which have a parallax and can be separated from each other, a memory for storing a predetermined coefficient (a) on the basis of the shape, length, and the like of the image guide, and CCDs for converting the first and second image light components into first and second image signals (A, B). The apparatus performs image processing for generating first and second image data (L, R) by performing proportional distribution processing of the first and second image signals in accordance with the predetermined coefficient.
Abstract: The present invention provides a variable attenuator for an optical transmission system having a disc-like masking plate with apertures (or image zones) formed in an arcuate control area at the periphery of the plate. Within each aperture, at least one opaque masking member is provided extending outward from the origin to the perimeter of the aperture and having a masking surface with an incremental masking area which continuously increases in magnitude with increasing radial length of the aperture. The perpendicular cross-section of each masking member with respect to the optical axis preferably forms a geometric shape having straight-line edges extending radially outward from the origin of the aperture. In the preferred embodiment, a plurality of masking members are utilized (as a pair or sets of pairs).
Abstract: Optical systems for endoscopes, borescopes, dental scopes, and the like which are characterized by having three groups of lenses of positive optical power and an external entrance pupil. Typically, all three groups of lenses are displaced from the pupil and focal planes. As a consequence, the displaced groups take part in the image transfer as well as in the pupil transfer. The optical power requirements can thus be shifted from one group to another, distributing as well as reducing the overall power requirement. Moreover, the aberration correction can also be shared between these groups. The first group, which conventionally has the highest optical power, and consequently a large amount of aberrations to be corrected, can in this way transfer some of the optical aberration correction to the other groups. The sharing of the optical functions and aberration correction results in a fully integrated optical system.
Abstract: A hard-type endoscope apparatus equipped with an inserting portion, a plurality of lenses inserted in the insertion portion, and a lens-barrel holding the lenses, includes a spacer pipe provided in the lens-barrel along the optical path of the lenses. The lens barrel is made of synthetic resin materials containing an additive. The additive forms matting irregularities on an inner surface of the tubular member.
Abstract: A three-dimensional vision endoscopic apparatus according to the present invention comprises a pair of optical systems for transmitting an image of a subject as two subject images having a parallax between them, a pair of imaging devices for picking up subject images transmitted by the optical systems, at least one visual field mask, a display unit for displaying the two subject images alternately or concurrently, an adjusting mechanism for adjusting the position of one or both of the imaging devices so that the display images will become consistent on the screen of the display unit, and an adjusting mechanism for adjusting the relative position of the visual field mask.