TH17840A - How to make a phosphor screen of a color cathode ray tube and an exposure device. - Google Patents

Abstract

An exposure device for the exposure of a photometric film (26) is placed on the inner surface of the instrument panel (1) in a colored cathode ray tube. Through the shadow mask (2) with a number of apertures (14) made up of an exposer (3) light source with optical axis. Which is co-axial with the axis of the front panel to serve to radiate light beams onto the inner surface of the instrument panel. Through the shadow mask Discrete lenses (20) are provided, depending on the source of the exposer and the shadow mask, and can be rotated around the optical axis. Discrete lenses have the first and second regions arranged adjacent to each other in the direction of the discrete lens rotation. The beam from the exposer source is guided by the path of the first and second regions. Go to the shadow mask section along a different path. The lens is rotated by a motor (16), so the beam from the light source will travel. Through different apertures along a different path

Claims (9)

1. A method of creating a phosphor screen for a color cathode ray tube. The method of creation consists of steps of Photoresist film (26) is established on the inner surface of the front panel (1) and the beam's radiation is placed on it. It is via shadow mask (2) with a number of adapters (14) to provide exposure. It is by way of light that travels through the apertures to appear on parts of the photoresist film, where the phosphor dots are created. The unique features that The exposure process will include The radiation of the beam from the exposer light source (3) goes directly to the shadow mask (2) and the rotation around the axis of the light (21) of the intermediate light source. Which acts as a discrete lens (20), which is provided between the light source and the shadow mask. And there will be a number of regions (21,22) that direct the beam from the light source to the shadow mask along the different paths of each region respectively. In this way, the beam is able to travel through at least two different paths. 2. Exposure device for via shadow mask with texture. A number of photoresist films are coated on the inner surface of the faceplate in a colored cathode ray tube. Where it is where the phosphor point is created. The device consists of An exposer light source (3) for optical axial alignment with the front panel axis (1) for conducting beam radiation on the inner surface of the instrument panel through the mask. Shadow (2) has unique properties which also include The medium, which acts as a discrete lens (20), is prepared between the exposer (3) and the mask (2) light source and can rotate around the optical axis. The medium, which acts as a discrete lens, has a number of regions (21,22) arranged adjacent to each other in the direction of rotation of the medium. Which acts as a discrete lens For directing the beam from the exposer light source to the shadow mask along different paths and drive trajectories (16,18,23) for the duty revolving around the center acting as a discrete lens. To pass the beam through at least two different apertures along a different path. 3. The exposure device according to claim 2 has a unique characteristic that the region (21,22) of the medium acting as a discrete lens (20) differs in the direction of the optical axis. 4. Exposure devices according to claim 3 have a unique characteristic that the medium Which acts as a discrete lens (20), is formed as a disc-shaped lens with the first semicircular region (21) with the thickness of the first and the semicircular region. Two (22) of the thickness of the second part. 5. The exposure device according to claim 2 has a characteristic that the region (21,22) of the medium, which acts as a discrete lens (20), has a different refractive index. 6. Exposure devices according to claim 3 have a unique characteristic that the medium It acts as a discrete lens (20), with the first semicircle (21) with the first refractive index and the second semicircle (22) with the second refractive index. And the first and second semicircular regions meet each other in the flat region (25), which includes the optical axes, and are formed into a disc shape. 7. Exposure devices according to claim 5 have a unique characteristic that the medium Which acts as a discrete lens (20) includes a semicircular lens (20a), formed as the first region (21), and a predetermined refractive index. And there is a plane (25), which includes the optical axis. 8. Exposure devices according to claim 2 have a unique characteristic that the medium Which acts as a discrete lens (20), it has an attached continuous region (25), which includes the optical axis and the partition function. 9. Exposure devices according to claim 3 have a unique characteristic that the medium Which acts as a discrete lens (20), it has a disk-shaped shape, with the optical axis coexisting and the first and second regions (21,22) are adjacent. The first part contains the central part of the medium. Which serves the lens which includes the optical axis