JP2013033075A - Neutral density filter for digital cameras - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a novel neutral density filter that is to be attached onto the front face of the lens barrel of a digital camera and has been subjected to gradation processing to consecutively change density or brightness of an image to express the image.SOLUTION: A neutral density filter for digital cameras has a round filter lens substrate 1 divided into two dimensionally equal parts around an optical axis; the filter lens substrate 1 is subjected to gradation processing permitting adjustment of the rate of light transmission by consecutively changing density of color from black 2a to gray 3a, medium gray 4a and light gray 5a on one face in a direction of the optical axis or attaching a vapor-deposited metal coat by gradually thinning the thickness thereof; and one half of the equally bisected round filter lens substrate is neither colored nor coated by vapor deposition as a transparent part 6.

Description

  The present invention relates to a neutral density filter developed for a single-lens reflex digital camera.

  The neutral density filter is also called an ND (Neutral Density) filter, and is a light amount filter that reduces only the amount of light without affecting any colors. Therefore, the conventional film-type camera is a filter that can shoot with the aperture and shutter speed set to the desired values even in bright places or when using a high-sensitivity film. There were a neutral density filter ND2, a neutral density filter ND4, a neutral density filter ND8, and a neutral density filter ND400 that can adjust the amount of light depending on the degree.

  In recent years when single-lens reflex digital cameras have become widespread, the neutral density filter ND2, the neutral density filter ND4, the neutral density filter ND8, and the neutral density filter ND400 that can adjust a large amount of light have also been used for digital cameras. Yes.

  Thus, the present invention provides a new neutral density filter that is used in a single-lens reflex digital camera and has a gradation process that can express the image by partially changing the color density and brightness (luminance). Is.

  In a single lens reflex digital camera, a CCD image sensor or a CMOS image sensor is used as an image sensor (optical sensor) that converts an image, which is an optical signal, into an electrical signal, and an image captured by the image sensor is recorded as digital data. Recently, the development of imaging devices, particularly cameras, has come to capture even fine optical signals as digital data with high sensitivity and accuracy.

  Therefore, in the present invention, a gradation that can be expressed by using a single filter mounted on the front surface of a lens barrel of a single-lens reflex digital camera and partially changing the color intensity or brightness (luminance) of the image. Attempts were made to provide a new neutral density filter with processing.

  An object of the present invention is to provide an image sensor (optical sensor) that converts an image, which is an optical signal, into an electrical signal in a single-lens reflex digital camera. Up to the point where digital data can be accurately captured, and a single filter is mounted on the front surface of a lens barrel of a single-lens reflex digital camera. The present invention provides a new neutral density filter with gradation that can be expressed by changing the density and brightness (luminance) continuously.

  The present invention is a circular filter lens substrate that is bisected in dimension about the optical axis, and the density is continuously increased from black to gray, medium gray, and light gray toward one side of the filter lens substrate in the optical axis direction. The color filter with a different color, or a gradation process that can adjust the amount of light transmission by applying a method of gradually reducing the thickness of the metal vapor-deposited coating, and the half of the half of the circular filter lens substrate is transparent to light. The present invention provides a neutral density filter for a digital camera, which is configured such that no coloration or vapor deposition coating is applied as a portion, and the amount of light transmission can be adjusted in the portion subjected to the gradation processing.

  Further, the present invention provides a circular filter lens substrate substantially divided into three equal parts in the vertical or horizontal direction, and one-third substrate on one side of the filter lens substrate has a black to gray, medium gray, light The circular filter lens substrate is divided into three equal parts by applying gradation processing that can adjust the amount of light transmission by coloring the color continuously changing to gray or by gradually reducing the thickness of the deposited metal film. 2/3 provides a light-reducing filter for digital cameras that does not have coloring or vapor-deposited coating as a light-permeable part, and can adjust the amount of light transmission in the gradation-processed part. is there.

Furthermore, the present invention provides a circular filter lens substrate that is roughly divided into three equal parts in the vertical or horizontal direction, and two-thirds of the substrate on one side of the filter lens substrate has black to gray, medium gray, and light gray in one direction. The circular filter lens substrate divided into three equal parts is subjected to gradation processing that can adjust the amount of light transmission by a method of continuously changing the concentration to a color or a method of gradually reducing the thickness of the metal vapor deposition film. One-third provides a light-reducing filter for a digital camera that is configured not to be colored or vapor-deposited as a light-permeable portion, and that can adjust the amount of light transmitted in the gradation-processed portion. .

Thus, in the present invention, the circular filter lens substrate subjected to gradation processing for adjusting the light transmission amount is mounted in a double frame type filter frame that is detachable on the front surface of the lens barrel of the digital camera, The filter frame consists of a front frame containing a circular filter lens substrate and a rear frame for mounting on a lens barrel. The front frame containing the circular filter lens substrate is attached to the front of the lens barrel of a digital camera. After that, a neutral density filter for a digital camera that is used by rotating the front frame and changing the angle of the gradation processing position is provided.

In the present invention, the color that is continuously changed in density from black to gray and light gray applied to the circular filter lens substrate is characterized by being performed on the circular filter lens substrate by ink jet printing.

In the present invention, the method of gradually depositing the thickness of the metal deposited film applied to the circular filter lens substrate is characterized by using a deposited film forming method such as a vacuum deposition method or a sputtering method.

Thus, according to the present invention, a CCD image sensor or a CMOS image sensor has a higher sensitivity as an image sensor (optical sensor) for converting an image, which is an optical signal, into an electric signal in a single-lens reflex digital camera. Is used to the fullest as it can be accurately captured as digital data. A single filter is attached to the front of the lens barrel of a single-lens reflex digital camera. We were able to provide a new neutral density filter that can express brightness (brightness) continuously.

(A) It is a front view of the neutral density filter which shows Example 1 of this invention. (B) It is a front view of the neutral density filter which shows Example 2 of this invention. (C) It is a front view of the neutral density filter which shows Example 3 of this invention. (A) It is an assembly drawing which shows an example of the filter frame of the double frame type used for this invention. (B) It is principal part sectional drawing of the double frame type filter frame used for this invention. It is explanatory drawing of the vacuum evaporation system used for this invention.

An object of the present invention is to provide an image sensor (optical sensor) that converts an image, which is an optical signal, into an electrical signal in a single-lens reflex digital camera, and is equipped with a CCD image sensor or a CMOS image sensor to achieve high sensitivity and a fine optical signal Up to the point where digital data can be accurately captured, and a single filter is mounted on the front surface of a lens barrel of a single-lens reflex digital camera. The present invention provides a new neutral density filter with gradation that can be expressed by changing the density and brightness (luminance) continuously.

  The present invention is a circular filter lens substrate that is bisected in dimension about the optical axis, and the density is continuously increased from black to gray, medium gray, and light gray toward one side of the filter lens substrate in the optical axis direction. The color filter with a different color, or a gradation process that can adjust the amount of light transmission by applying a method of gradually reducing the thickness of the metal vapor-deposited coating, and the half of the half of the circular filter lens substrate is transparent to light. The present invention provides a neutral density filter for a digital camera, which is configured such that no coloration or vapor deposition coating is applied as a portion, and the amount of light transmission can be adjusted in the portion subjected to the gradation processing.

  The above-described method for coloring the filter lens substrate on one side of the filter lens substrate by continuously changing the density from black to gray, medium gray, and light gray in the direction of the optical axis is an ink jet recently developed by major printing companies. If printing is used, the surface of the filter lens having an uneven shape can be easily colored or colored by changing the concentration on the same axis and the filter lens substrate required by the present invention can be obtained. is there.

Further, the method of gradually reducing the thickness of the metal vapor deposition film toward one side of the filter lens substrate in the optical axis direction can be performed using a vapor deposition film forming method such as a vacuum vapor deposition method or a sputtering method. .

The vacuum deposition method heats and evaporates the material to be coated in a vacuum and condenses the vapor on the surface of the filter lens substrate to form a metal film. As a similar method, atoms, molecules, or ions collide with the coating material. A sputtering method can be used in which a phenomenon is caused and particles released by the collision are adhered to the surface of the filter lens substrate to form a metal film.

The metal material deposited on the filter lens substrate of the present invention can use oxides and fluorides such as silicon oxide, titanium dioxide, zinc oxide, and magnesium fluoride having optical characteristics. When depositing, it is easy to process the deposited film so that the thickness of the deposited film is gradually reduced.

  Therefore, in the embodiment of the present invention, the circular filter lens substrate substantially divided into three equal parts in the vertical or horizontal direction, and the one-third substrate on one side of the filter lens substrate from black toward the optical axis direction. Gradient processing that can adjust the amount of light transmission by applying a method of gradually changing the thickness of the metal vapor-deposited coating to gray, medium gray, or light gray, or applying the gradation processing that can adjust the light transmission amount Two-thirds of the divided circular filter lens substrate has a structure in which no coloring or vapor deposition film is applied as a light passage portion, and the light attenuation for digital cameras that can adjust the light transmission amount in the gradation processing portion. A filter is also preferable.

Further, in another embodiment of the present invention, a circular filter lens substrate roughly divided into three equal parts in the vertical or horizontal direction, two-thirds of the substrate side of the filter lens substrate is black to gray toward one side, Applying gradation processing that can adjust the amount of light transmission by coloring continuously changing the concentration to medium gray or light gray, or gradually depositing the thickness of the metal vapor-deposited coating, and divided into three equal parts One third of the circular filter lens substrate is a light filter for digital cameras that does not have coloring or vapor-deposited coating as a light-permeable part, and can adjust the amount of light transmission in the gradation-processed part. Some are also preferred.

The circular filter lens substrate subjected to gradation processing for adjusting the light transmission amount in the present invention is mounted in a double frame type filter frame that can be attached to and detached from the front surface of the lens barrel of the digital camera. It consists of a front frame containing a circular filter lens substrate and a rear frame for mounting on a lens barrel. The front frame containing the circular filter lens substrate is a front frame after the rear frame is mounted on the front surface of the lens barrel of a digital camera. The present invention provides a neutral density filter for a digital camera that can obtain a gradation image that cannot be obtained by a conventional ND filter by rotating and changing the angle of the gradation processing position.

  FIG. 1A illustrates Embodiment 1 of the present invention. In FIG. 1A, 1 is a circular filter lens substrate, 2a is a portion of a circular filter lens substrate colored, for example, black, and 3a is gray. , 4a is a light gray colored portion, 5a is a light gray colored portion, and 6 is a through portion (unprocessed portion) of the filter lens substrate.

  Thus, the first embodiment has the circular filter lens substrate 1 that is bisected in the vertical direction about the optical axis C that is the center of the circular filter lens substrate 1. By ink jet printing, the color is continuously changed from black to gray, medium gray, and light gray in one step on the side of the bisector, and the density is changed gradually. A circular filter lens substrate in a neutral density filter for a digital camera is formed.

  The method of continuously changing the density from black to gray, medium gray, and light gray using the ink jet printing recently developed by major printing companies, respectively, has a concave lens or convex lens shape on the surface. The surface of the filter lens substrate 1 can be easily colored or colored by changing the concentration in a coaxial manner, and the filter lens substrate 1 required by Example 1 can be obtained. In the above description, the circular filter lens substrate 1 is described by taking as an example the black colored portion 2a, the gray colored portion 3a, the medium gray colored portion 4a, and the light gray colored portion 5a. It is also possible to use a color, and it is important that the amount of transmitted light can be adjusted by the shade of the color.

  3 illustrates a vacuum vapor deposition apparatus for forming a metal vapor deposition film on the filter lens substrate 1 according to the first embodiment. In FIG. 3, 7 is a vacuum vapor deposition apparatus body, and 8 is a vacuum vapor deposition apparatus body. A vacuum pump for creating a high vacuum inside, 9 is a baffle, 10 is a crucible for vapor deposition material, 11 is a slit-type shutter, 12 is a holder for the circular filter lens substrate 1, and the holder 12 is a circular filter lens. The substrate 1 can be moved in the direction of the arrow while adjusting the speed.

  Thus, the above-described vacuum vapor deposition apparatus heats and evaporates the material to be coated in vacuum with the crucible 10 for vapor deposition material, and condenses the vapor on the surface of the circular filter lens substrate 1 to form a metal film. Example 1 has a circular filter lens substrate 1 that is bisected in the vertical direction about the optical axis C that is the center of the circular filter lens substrate 1, and bisects the filter lens substrate 1. The thickness of the metal vapor deposition film is gradually attached to the one side surface in the direction of the optical axis C. The thickness of the 2b vapor deposition film is thick, the 3b vapor deposition film is slightly thin, the 4b vapor deposition film is slightly thinner, and the 5b vapor deposition film is extremely thin. Then, the half on one side is subjected to gradation processing capable of adjusting the light transmission amount by a method of forming the through portion 6 (non-processed portion) of the filter lens substrate.

The metal material deposited on the circular filter lens substrate 1 of the present invention can use oxides and fluorides such as silicon oxide, titanium dioxide, zinc oxide, and magnesium fluoride having optical characteristics. When the metal material is vapor-deposited, it can be easily processed by adjusting the moving speed of the slit-type shutter 11 or the circular filter lens substrate 1 so that the thickness of the vapor-deposited film is gradually reduced. It is also possible to use a deposited film forming method such as a sputtering method instead of the vacuum deposition apparatus.

  FIG. 1B illustrates Example 2 of the present invention. In FIG. 1B, 1 is a circular filter lens substrate, 2a is a portion of the circular filter lens substrate colored, for example, black, and 3a is gray. , 4a is a light gray colored portion, 5a is a light gray colored portion, and 6 is a through portion (unprocessed portion) of the filter lens substrate.

  Thus, the second embodiment has a circular filter lens substrate 1 obtained by dividing the circular filter lens substrate 1 into approximately three equal parts in the vertical direction and the horizontal direction. Dimming for digital cameras by ink-jet printing that changes the density stepwise from black to gray, medium gray, or light gray in the direction of the optical axis C, or changes the density gradually. A circular filter lens substrate in the filter is formed.

  The method of continuously changing the density from black to gray, medium gray, and light gray using the ink jet printing recently developed by major printing companies, respectively, has a concave lens or convex lens shape on the surface. The surface of the filter lens substrate 1 can be easily colored or colored with the concentration changed axially, and the filter lens substrate 1 required by Example 2 can be obtained. In the above description, the circular filter lens substrate 1 has been described by taking the portion 2a colored black, the portion 3a colored gray, the portion 4a colored medium gray, and the portion 5a colored light gray as an example. It is also possible to use a color, and it is important that the amount of transmitted light can be adjusted by the shade of the color.

  3 illustrates a vacuum vapor deposition apparatus for forming a metal vapor deposition film on the filter lens substrate 1 according to the second embodiment. In FIG. 3, 7 is a vacuum vapor deposition apparatus body, and 8 is a vacuum vapor deposition apparatus body. A vacuum pump for creating a high vacuum inside, 9 is a baffle, 10 is a crucible for vapor deposition material, 11 is a slit-type shutter, 12 is a holder for the circular filter lens substrate 1, and the holder 12 is a circular filter lens. The substrate 1 can be moved in the direction of the arrow while adjusting the speed.

  Thus, the above-described vacuum vapor deposition apparatus heats and evaporates the material to be coated in vacuum with the crucible 10 for vapor deposition material, and condenses the vapor on the surface of the circular filter lens substrate 1 to form a metal film. Example 2 has a circular filter lens substrate 1 that is dimensionally divided into three parts in the vertical direction around the optical axis C that is the center of the circular filter lens substrate 1. The thickness of the metal deposition coating is gradually reduced to the surface of the optical axis C in the direction of the optical axis C, with a thick portion of 2b deposition coating, 3b deposition coating slightly thinner portion, 4b deposition coating slightly thinner portion, and 5b deposition coating extremely thin portion. Thus, two-thirds perform gradation processing capable of adjusting the amount of transmitted light by a method of forming the through portion 6 (non-processed portion) of the filter lens substrate.

The metal material deposited on the circular filter lens substrate 1 of the present invention can use oxides and fluorides such as silicon oxide, titanium dioxide, zinc oxide, and magnesium fluoride having optical characteristics. When depositing a metal material, it can be easily processed by adjusting the moving speed of the slit type shutter 11 or the circular filter lens substrate 1 so that the thickness of the deposited film is gradually reduced. It is also possible to use a vapor deposition film forming method such as a sputtering method instead of the vacuum vapor deposition apparatus.

  FIG. 1C illustrates a third embodiment of the present invention. In FIG. 1C, 1 is a circular filter lens substrate, 2a is a portion of the circular filter lens substrate colored, for example, black, and 3a is gray. , 4a is a light gray colored portion, 5a is a light gray colored portion, and 6 is a through portion (unprocessed portion) of the filter lens substrate.

  Thus, the third embodiment has a circular filter lens substrate 1 obtained by dividing the circular filter lens substrate 1 into approximately three equal parts in the vertical direction and the horizontal direction. A digital camera which performs ink-jet printing to change the density stepwise from black to gray, medium gray, or light gray in the one-third direction, or to change the density gradually Forming a circular filter lens substrate in a neutral density filter.

  The method of continuously changing the density from black to gray, medium gray, and light gray using the ink jet printing recently developed by major printing companies, respectively, has a concave lens or convex lens shape on the surface. The surface of the filter lens substrate 1 can be easily colored or colored by changing the concentration in a coaxial manner, and the filter lens substrate 1 required by the third embodiment can be obtained. In the above description, the circular filter lens substrate 1 has been described by taking the portion 2a colored black, the portion 3a colored gray, the portion 4a colored medium gray, and the portion 5a colored light gray as an example. It is also possible to use a color, and it is important that the amount of transmitted light can be adjusted by the shade of the color.

  3 illustrates a vacuum vapor deposition apparatus for forming a metal vapor deposition film on the filter lens substrate 1 in Example 3. In FIG. 3, 7 is a vacuum vapor deposition apparatus body, and 8 is a vacuum vapor deposition apparatus body. A vacuum pump for creating a high vacuum inside, 9 is a baffle, 10 is a crucible for vapor deposition material, 11 is a slit-type shutter, 12 is a holder for the circular filter lens substrate 1, and the holder 12 is a circular filter lens. The substrate 1 can be moved in the direction of the arrow while adjusting the speed.

  Thus, the above-described vacuum vapor deposition apparatus heats and evaporates the material to be coated in vacuum with the crucible 10 for vapor deposition material, and condenses the vapor on the surface of the circular filter lens substrate 1 to form a metal film. Example 3 has a circular filter lens substrate 1 obtained by dividing the circular filter lens substrate 1 into three equal parts. In the filter lens substrate 1, the thickness of the metal vapor deposited film is set to 2/3 of the thick portion. 3b deposition film a little thinner part, 4b deposition film a little thinner part, 5b deposition coating a very thin part and a thin part, one side part is a method to form the filter lens substrate through part 6 (unprocessed part) In this way, gradation processing is applied to adjust the amount of transmitted light.

The metal material deposited on the circular filter lens substrate 1 of the present invention can use oxides and fluorides such as silicon oxide, titanium dioxide, zinc oxide, and magnesium fluoride having optical characteristics. When depositing a metal material, it can be easily processed by adjusting the moving speed of the slit type shutter 11 or the circular filter lens substrate 1 so that the thickness of the deposited film is gradually reduced. Instead of the apparatus, a vapor deposition film forming method such as a sputtering method may be used.

Thus, the circular filter lens substrate 1 formed in the first to third embodiments described above is built in the filter frame shown in FIGS. 2A and 2B, and the front surface of the lens barrel of the digital camera. It is used by being attached to. 2A is an assembly view of the filter frame, and FIG. 2B is a cross-sectional view of the main part of the assembled filter frame. 13 is a filter frame, 14 is a state before the circular filter lens substrate 1 is incorporated. A frame, 15 is a rear frame for mounting on the lens barrel, 16 is a pressing spring, and a female screw capable of screwing another attachment to the incident light side of the front frame 14 incorporating the circular filter lens substrate 1. 17 is screwed, and a male screw 18 for mounting to the rear frame 15 is screwed on the outside of the front frame 14.

The rear frame 15 is screwed with a female screw 19 for fitting with the front frame 14, and a male screw 20 for mounting the filter frame 13 is screwed on the rear frame 14 on the camera lens mirror side or the like. Has been.

Thus, the circular filter lens substrate 1 subjected to gradation processing for adjusting the amount of light transmission in the present invention is mounted in a double frame type filter frame 13 detachably attached to the front surface of the lens barrel of the digital camera. The filter frame 13 includes a front frame 14 containing the circular filter lens substrate 1 and a rear frame 15 for mounting on the lens barrel. The front frame 14 containing the circular filter lens substrate 1 is a lens barrel of a digital camera. It is possible to change the angle of the gradation processing position by rotating the front frame 14 after mounting the rear frame 15 on the front surface, and a neutral density filter for digital cameras that can obtain gradation images that could not be achieved with conventional ND filters Is to provide.

DESCRIPTION OF SYMBOLS 1 Circular filter lens board | substrate 2a The part colored black 2b The thick part of vapor deposition film 3a The part colored gray 3b The part a little vapor deposition film 4a The part colored middle gray 4b The part a little thinner than the vapor deposition film 5a The part colored light gray 5b Vapor deposition thin part 6 Filter lens substrate through part 7 Vacuum vapor deposition device body 8 Vacuum pump 9 Baffle 10 Crucible 11 for vapor deposition material Slit type shutter 12 Holder 13 Filter frame 14 Front frame 15 Rear frame 16 Pressing spring 17 Female Screw 18 Male screw 19 Female screw 20 Male screw for filter frame mounting

Claims (6)

  Circular filter lens substrate that is bisected dimensionally around the optical axis, and one side of the filter lens substrate that is continuously colored from black to gray, medium gray, or light gray in the optical axis direction Or by applying a gradation process capable of adjusting the amount of light transmission by a method of gradually reducing the thickness of the metal vapor-deposited film, and the half of one side of the bisected circular filter lens substrate is colored as a light passage portion. A neutral density filter for digital cameras, characterized in that no vapor deposition coating is applied.   A circular filter lens substrate that is roughly divided into three equal parts in the vertical or horizontal direction, and one-third of the substrate on one side of the filter lens substrate continuously from black to gray, medium gray, and light gray in the optical axis direction. Two-thirds of the circular filter lens substrate divided into three equal parts by applying gradation processing that can adjust the amount of light transmission by coloring with different concentrations, or by gradually reducing the thickness of the metal vapor deposition coating A neutral density filter for digital cameras, characterized in that no coloring or vapor deposition coating is applied as a light passage portion. A circular filter lens substrate that is roughly divided into three equal parts in the vertical or horizontal direction, and two-thirds of the substrate on one side of the filter lens substrate has a continuous density from black to gray, medium gray, and light gray toward one side. One-third of the circular filter lens substrate divided into three equal parts is subjected to gradation processing that can adjust the amount of light transmission by using a method of gradually changing the thickness of the metal vapor-deposited coating or the thickness of the metal deposited film. A light-reducing filter for digital cameras, characterized in that no coloring or vapor-deposited film is applied as a through-through part. The circular filter lens substrate subjected to gradation processing for adjusting the light transmission amount is mounted in a double frame type filter frame that can be attached to and detached from the front surface of the lens barrel of the digital camera, and the filter frame is a circular filter lens substrate. The front frame with a built-in lens and the rear frame for mounting to the lens barrel. The front frame with the circular filter lens substrate built in is equipped with a gradation process by rotating the front frame after mounting the rear frame in front of the lens barrel of the digital camera. 4. The neutral density filter for a digital camera according to claim 1, wherein the filter is used by changing the angle of the position. The coloring which changes density continuously from black to gray or light gray applied to the circular filter lens is performed by inkjet printing on the circular filter lens substrate. A neutral density filter for digital cameras. 4. The method according to claim 1, wherein the metal vapor deposition film applied to the circular filter lens is deposited by using a vapor deposition film forming method such as a vacuum vapor deposition method or a sputtering method. A neutral density filter for a digital camera according to any one of the above.