Embodiments described herein relate generally to a light emitting panel, an optical print head, and an image forming apparatus.
In the related art, a light emitting panel in which a light emitting element such as an EL (Electro Luminescence), or the like is provided on a substrate, is used. In this light emitting panel, there is a problem in that it is difficult to understand which surface is an emitting surface of the light emitting element, and workability is not good when attaching the light emitting panel to other units, in a manufacturing process.
In general, according to one embodiment, a light emitting panel includes a glass substrate, a light emitting element, metal wiring, and a mark. Light passes through the glass substrate. The light emitting element is present on any one of a first plane and a second plane which is a rear surface of the first plane of the glass substrate. The metal wiring is present on one plane, and applies voltage to the light emitting element. The mark is present on one plane and is formed of the same material as that of the metal wiring.
Hereinafter, each embodiment will be described with reference to drawings.
The image forming apparatus 100 includes a scanner unit 1 which reads an image of an original document O, and a printer unit 2 which forms an image on a sheet S (a member to be transferred). In the scanner unit 1, a first carriage 3 which supports a light source 9 and a mirror 10 and a second carriage 4 which supports mirrors 11 and 12, move independently of each other in a horizontal direction of
In the printer unit 2, a sheet S in a sheet feeding cassette 21 is conveyed to an image forming unit 14 through a sheet feeding roller 22, a separating roller 23, a conveying path P, and a resist roller 24. The image forming unit 14 forms an image on the sheet S. Specifically, a photoconductive drum 15 of the image forming unit 14 rotates in a direction of an arrow D1. A charger 16 charges a surface of the photoconductive drum 15. An optical print head 6 scans the photoconductive drum 15 in a main scanning direction (in the direction perpendicular to the plane of
The optical print head 6 extends in the depth direction with respect to the plane of
The attachment base 61 holds the light emitting panel 7. The light emitting panel 7 includes a plurality of light emitting elements 72 in the depth direction with respect to the plane of
The lens holder 62 holds the SELFOC lens array 63, and positions the SELFOC lens array 63 with respect to the light emitting panel 7.
The SELFOC lens array 63 includes a plurality of SELFOC lenses corresponding to each light emitting element 72, in the depth direction with respect to the plane of
The light emitting panel 7 includes a glass substrate 71, the light emitting element 72, a metal wiring 73, a mark 74, and a sealing panel 75.
The glass substrate 71 has an elongated shape and is formed of transparent glass which allows light to pass thorough.
The plurality of light emitting elements 72 is continuously provided in line in a longitudinal direction of the glass substrate 71 on a front surface 711 (a first surface) of the glass substrate 71. The light emitting elements 72 are Organic Electro Luminescence elements. The light emitting elements 72 are a top emission-type, and, when a voltage is applied thereto, emit light to an upper middle side in
The metal wiring 73 is formed on the front surface 711 of the glass substrate 71. In
The mark 74 is positioned to be separated on the other end side of the glass substrate 71 in a longitudinal direction, with respect to the plurality of the light emitting elements 72 on the front surface 711 of the glass substrate 71. The mark 74 is formed of the same material as that of the metal wiring 73, and is visible from the outside of the light emitting panel 7. The formation of the mark 74 is performed at the same time and with the same material as the metal wiring 73, in the process of forming the metal wiring 73 on the glass substrate 71.
The mark 74 is visible from any side of the front surface 711 and the rear surface 712 of the glass substrate 71. The mark 74 allows a worker to recognize which plane is the front surface 711 and which is the rear surface 712 of the glass substrate 71, when the worker views the mark 74. The mark 74 is, for example, formed of a character F, and is asymmetric both vertically and horizontally. As shown in
Meanwhile, as shown in
The sealing panel 75 (
In the embodiment, the worker can easily understand the plane 711 in which the mark 74 has a meaningful shape (the mark 74 has a normal posture) as the front surface 711, since the mark 74 is visible from any plane 711 and 712 of the light emitting panel 7 (the glass substrate 71), and the mark 74 is asymmetric vertically and horizontally. In addition, the worker can easily understand whether or not both ends of the light emitting panel 7 in a longitudinal direction (up and down) are positioned correctly, on the basis of the up and down direction of the mark 74.
In addition, in the embodiment, since the mark 74 is formed of the same material as that of the metal wiring 73, the mark 74 can be formed at the same time and with the same thickness as the metal wiring 73.
As described above, in the embodiment, it is possible to allow the worker to easily recognize the direction of light emitting panel 7 without increasing the number of processes and cost in respect to the basic design, and without drastically changing the basic design.
In the first embodiment, the light emitting element 72 is disposed at the center of the glass substrate 71 in a transverse direction (Y direction); however, in the embodiment, a light emitting element 72 is positioned to be biased to one side which is a lower-middle side in
In the embodiment, when the worker understands in advance that a posture of a light emitting panel 7A, in which the light emitting element 72 is positioned downward, is a posture in which both ends of the light emitting panel 7A in a longitudinal direction are at the correct position, the worker can recognize whether or not both ends of the light emitting panel 7A in a longitudinal direction, are at the correct position, depending on whether the light emitting element 72 is on the upper side, or is on the lower side of the light emitting panel 7A, in addition to a posture of the mark 74.
In the embodiment, a light emitting element 72 and a mark 74 are disposed on a plane 712 (a rear surface) in a depth side of the glass substrate 713 in
In the embodiment, as shown in
In each of the embodiments, the light emitting element 72 is an Organic Electro Luminescence element; however, the light emitting element 72 may be a Light Emitting Diode or an Inorganic Electro Luminescence element.
In each of the embodiments, a plurality of light emitting elements 72 is aligned in one line on the glass substrate 71, 71A or 71B; however, the plurality of light emitting elements 72 may aligned in two or more lines on the glass substrate 71, 71A or 71B.
The light emitting element 72 may be transparent or colored in a state of not being applied with voltage. The glass substrate 71, 71A or 71B is not necessarily transparent, or may be colored, when the light emitting element 72 is the top emission-type.
The mark 74 may be positioned at an arbitrary position.
In each of the embodiments, the mark was asymmetric vertically and horizontally; however, the mark may be asymmetric in any of a vertical direction and a horizontal direction, such as T, E, or the like. Even in this case, the worker can recognize the correct direction of the light emitting panel from the relationship with the other portions of the light emitting panel, for example, the light emitting element. A case may be considered in which the worker understands in advance that the posture of the mark which is on the left side of the light emitting element 72, is the correct posture of the light emitting panel 7, and the mark is asymmetric in any of the vertical direction and the horizontal direction such as T or E. In this case, the worker first sets the mark of the light emitting panel to be on the left side of the light emitting element. In addition, when the mark is viewed as the meaningful shape such as T or E, it is possible to recognize that the plane being seen is the front surface which is the light emitting plane. If the mark is turned inside out, and is not seen as the meaningful shape, the plane being seen is recognized as the rear surface which is not emitting light.
The plane which is not emitting light may be set as the front surface in which the mark is seen to have the normal shape.
The member to be transferred on which images are formed using the image forming apparatus 100 may be an OHP (Overhead Projector), in addition to the sheet.
While certain embodiments have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of invention. Indeed, the novel apparatus, methods and system described herein may be embodied in a variety of other forms; furthermore, various omissions, substitutions and changes in the form of the apparatus, methods and system described herein may be made without departing from the spirit of the inventions. The accompanying claims and their equivalents are intended to cover such forms or modifications as would fall within the scope and spirit of the inventions.
This application is based upon and claims the benefit of priority from U.S. provisional application 61/389,707, filed on Oct. 4, 2010; the entire contents of which are incorporated herein by reference.
Number | Date | Country | |
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61389707 | Oct 2010 | US |