JPH07108709A - Image forming apparatus - Google Patents

Abstract

PURPOSE:To provide an image forming apparatus in which a photosensitive body is prevented effectively from being irradiated with unnecessary light, and a high quality latent image can be formed on the photosensitive body. CONSTITUTION:In an image forming apparatus comprising a housing 4, a lens array 3 in which more than one cylindrical lens 7 is arranged in a casing, and a light emitting diode element array 2 in which a large number of light emitting diode elements 2a are arranged in a straight line, the lens array 3 and the light emitting diode element array 2 are fixed in the housing 4 so that each light emitting diode element 2a is positioned on the optical axis of each cylindrical lens 7. A light diaphragm member 8 which has substantially the same arrangement as that of each cylindrical lens of the lens array and is equipped with more than one hole having a smaller diameter than that of each cylindrical lens is arranged on one side of the lens array 3 which is confronted by the light emitting diode element array 2 of the lens array 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus used as a light source of a recording device such as an electrophotographic printer.

[0002]

2. Description of the Related Art Recently, with the progress of information processing technology and communication technology, a compact and inexpensive electrophotographic printer capable of outputting a large amount of arbitrary kanji and figures on plain paper at high speed and high quality. Is required. Therefore, in order to meet this demand, an electrophotographic printer using an optical printer head in which a plurality of light emitting diode elements (LEDs) are linearly mounted on one main surface of an electrically insulating substrate as a light source of a printer is small. , Has been proposed as a high resolution one.

An optical printer head as an image forming apparatus used in this conventional electrophotographic printer is usually
As shown in FIG. 3, a light emitting diode element array 13 comprising a plurality of light emitting diode elements 13a on an electrically insulating substrate 12
It is composed of a base put 11 in which are arranged linearly, a lens array 14 in which a large number of rod-shaped self-focusing lenses 16 are linearly arranged in two rows on a frame 15, and a housing 17 made of polycarbonate resin or the like. The base plate 11 and the lens array 14 are fixed to the housing 17 with an adhesive so that each light emitting diode element 13a is located on the optical axis of each rod-shaped self-focusing lens 16.

In the optical printer head as the image forming apparatus, each light emitting diode element 13a of the light emitting diode element array 13 is caused to selectively emit light in response to an external electric signal, and each light emitting diode element 13a emits light. The formed light is imaged on the surface of the external photoconductor 18 via the lens array 14, and a latent image is formed on the photoconductor 18 to function as an image forming apparatus.

[0005]

However, in this conventional image forming apparatus, the aperture angle of the lens array 14 is about 20 degrees in order to allow the lens array 14 to capture a large amount of light emitted from the light emitting diode element 13a. The lens array 14 is fixed to the housing 17 such that one end thereof is substantially flush with the inner surface of the housing 17, and the distance between the one end of the lens array 14 and the light emitting diode element 13a is large. Therefore, each of the light emitting diode elements 13a is caused to emit light selectively, and the emitted light is imaged on the surface of the external photoconductor 18 via the lens array 14 to form a latent image on the photoconductor 18. At this time, a part of the light emitted from each light emitting diode element 13a is irradiated to the inner surface of the housing 17 and scattered, and this enters the lens array 14 and, as a result, is reflected on the photoconductor 18. Through Zuarei 14 unnecessary light is irradiated, it has a disadvantage in that it is impossible to form a precise and sharp latent image on the photosensitive member 18.

[0006]

SUMMARY OF THE INVENTION The present invention has been devised in view of the above-mentioned drawbacks, and it is an object of the present invention to effectively prevent unnecessary light from irradiating the photoconductor and form a latent image on the photoconductor with high image quality. An object of the present invention is to provide an image forming apparatus capable of performing the above.

[0007]

SUMMARY OF THE INVENTION The present invention comprises a housing,
A lens array in which a plurality of rod-shaped lenses are arranged and housed in a frame, and a light-emitting diode element array in which a large number of light-emitting diode elements are linearly arranged and mounted, and the lens array and the light-emitting diode element array are provided in the housing. An image forming apparatus in which each light emitting diode element is fixed so as to be positioned on the optical axis of each rod-shaped lens, wherein each rod-shaped portion of the lens array is provided on one end side where the light-emitting diode element array of the lens array faces. An optical diaphragm member having a plurality of holes having a diameter substantially smaller than the diameter of each rod-shaped lens and having an arrangement substantially the same as the arrangement of the lenses is arranged.

[0008]

According to the image forming apparatus of the present invention, one end of the lens array facing the light emitting diode element array has substantially the same arrangement as that of each rod-shaped lens of the lens array, and Since the light diaphragm member provided with a plurality of holes having a diameter smaller than the diameter is arranged, even if a part of the light emitted from each light emitting diode element is irradiated to the inner surface of the housing and scattered, the scattered light is the light diaphragm member. Will not be blocked by and will not enter the lens array, and as a result,
The lens array satisfactorily irradiates only the direct light from each light emitting diode element excluding the scattered light onto the photoconductor, and it is possible to form a clear and accurate latent image on the photoconductor.

[0009]

The present invention will now be described in detail with reference to the accompanying drawings. 1 and 2 show an embodiment of an optical printer head as an image forming apparatus of the present invention, in which 1 is a base plate,
2 is a light emitting diode element array, 3 is a lens array, 4
Is the housing.

The base plate 1 is made of an electrically insulating material such as ceramic, glass or glass epoxy, and a plurality of light emitting diode element arrays 2 are linearly mounted on the upper surface thereof.

The pace plate 1 functions as a support member for supporting the light emitting diode element array 2, and when it is made of, for example, a ceramic of an aluminum oxide sintered body, alumina (Al ₂ O ₃ ) and silica ( SiO ₂ ), calcia (CaO), magnesia (MgO), etc.A suitable organic solvent is added to the raw material powder, and the solvent is mixed to form a slurry and this is adopted by the conventionally known doctor blade method or calender roll method. To obtain a ceramic green sheet (ceramic green sheet), and thereafter, the ceramic green sheet is punched into a predetermined shape and fired at a high temperature (about 1600 ° C.).

Further, the light emitting diode element array 2 mounted on the base plate 1 comprises a plurality of light emitting diode elements 2a, and the light emitting diode elements 2a individually and selectively emit light in response to an external electric signal, A latent image for forming an image is formed on the photoconductor 5 by irradiating the surface of the photoconductor 5 with the emitted light.

The light emitting diode element 2a is made of GaAsP.
-Based, GaP-based light-emitting diodes are used, for example, GaAs
In the case of P-based light-emitting diodes, as well as heating to a high temperature the GaAs substrate at furnace First AsH ₃ and (arsine) PH
A gas containing an appropriate amount of ₃ (phosphine) and Ga (gallium) is contacted to grow an n-type semiconductor GaAsP (gallium-arsenic-phosphorus) single crystal on the substrate surface, and then a GaAsP single crystal surface is grown.
A window film of Si ₃ N ₄ (silicon nitride) is deposited, and Zn (zinc) gas is exposed to the window part to remove Ga of n-type semiconductor.
It is formed by diffusing Zn into a part of an AsP single crystal to form a p-type semiconductor and having a pn junction.

In the case of a B4 size optical printer head, 2048 (8 per 1 mm) light emitting diode elements 2a are linearly arranged. Specifically, 64 light emitting diode elements are regarded as one unit. Light emitting diode element array 2
By arranging 32 light emitting diode elements 2a linearly, 2048 light emitting diode elements 2a are arranged on the base plate 1.

Further, the light emitting diode element 2a is provided with a lens array 3 at a predetermined distance above the light emitting diode element 2a. The lens array 3 has a function of irradiating the surface of the photoconductor 5 with the light emitted from each light emitting diode element 2a. Do

The lens array 3 is made of glass in a frame 6,
Rod-shaped self-focusing lens made of synthetic resin
It has a structure in which a large number of 7 are arranged linearly in two rows.
The rod-shaped self-focusing lens 7 is sandwiched between the ABS resin or FRP plate and each self-focusing lens 7 between the ABS resin or FRP plate and each self-focusing lens 7 by sandwiching the rod-shaped self-focusing lens 7 in two rows. It is manufactured by curing and adhering the frame body 6 and the self-focusing lens 7 with a silicone resin.

The base plate 1 and the lens array 3 on which the light emitting diode element array 2 is mounted have a fixed distance between them, and the optical axis of each self-focusing lens 7 of the lens array 3 is the light emitting diode element array. 2 is fixed to a housing 4 made of resin so as to be above each light emitting diode element 2a.

The base plate 1 and the lens array 3 are fixed to the housing 4 by mounting the light emitting diode element array 2 inside the lower part of the housing 4.
1 and the lens array 3 are bonded and fixed to the upper part of the lens array 3 with an adhesive made of epoxy resin.

The housing 4 to which the lens array 3 and the like are fixed is made of polycarbonate resin, and is formed into a predetermined shape by adopting a conventionally known resin molding method.

Further, the lens array 3 fixed to the housing 4 is provided on one end side facing the light emitting diode element array 2 and on the metal plate made of, for example, iron, SUS, aluminum, copper, etc. as shown in FIG. The optical diaphragm member 8 having a structure having substantially the same arrangement as that of the rod-shaped self-focusing lenses 7 and having a plurality of holes 8a having a diameter smaller than the diameter of the rod-shaped self-focusing lenses 7. However, the holes 8a are bonded and fixed through a suitable adhesive so that the holes 8a are aligned with the rod-shaped self-focusing lenses 7 of the lens array 3.

The optical diaphragm members 8 are arranged in substantially the same arrangement as the rod-shaped self-focusing lenses 7 of the lens array 3 and have a diameter smaller than the diameter of each rod-shaped self-focusing lens 7. Since the hole 8a is formed in the lens array 3, the angle of light entering the lens array 3 can be significantly limited. This allows each light-emitting diode element 2a to selectively emit light, and the light is transmitted to the lens array.
When the photoconductor 5 is irradiated with light through the 3, even if a part of the light emitted by each light emitting diode element 2a is irradiated to the inner surface of the housing 4 and scattered, the scattered light is blocked by the light diaphragm member 8 and the lens array As a result, only the direct light from each light emitting diode element 2a excluding scattered light enters the lens array 3 and the photoconductor 5 receives only the direct light from each light emitting diode element 2a. It is possible to form a clear and accurate latent image on the photoconductor 5 by irradiating the photoconductor 5 satisfactorily.

The optical diaphragm member 8 is made of, for example, iron or SU.
It is manufactured by forming a plurality of holes 8a in a metal plate made of S, aluminum, copper or the like by a conventionally known etching method.

The optical aperture member 8 has a hole 8a whose diameter is equal to that of each rod-shaped self-focusing lens 7 of the lens array 3.
If the diameter is set to be 10% or more smaller than the diameter, the light of each light emitting diode element 2a scattered on the inner surface of the housing 4 can be prevented from entering the lens array 3. Therefore, it is preferable that the diameter of the hole 8a provided in the optical diaphragm member 8 is smaller than the diameter of each rod-shaped self-focusing lens 7 of the lens array 3 by 10% or more.

Thus, according to the image forming apparatus of the present invention, the plurality of light emitting diode elements 2a linearly arranged on the base plate 1 are caused to individually and selectively emit light in response to an external electric signal, and the emitted light is emitted. By irradiating the photoconductor 5 through the lens array 3 with, the image forming apparatus functions.

The present invention is not limited to the above-mentioned embodiments, but various modifications can be made without departing from the gist of the present invention.

[0026]

According to the image forming apparatus of the present invention, the array of the rod-shaped lenses of the lens array is substantially the same as the array of the rod-shaped lenses on one end side where the light emitting diode element arrays of the lens array face each other. Since the light diaphragm member provided with a plurality of holes having a diameter smaller than the diameter of the rod lens is arranged, even if a part of the light emitted from each light emitting diode element is irradiated to the inner surface of the housing and scattered, the scattered light is It will not be blocked by the optical diaphragm member and enter the lens array,
As a result, the lens array satisfactorily irradiates only the direct light from each light emitting diode element excluding the scattered light onto the photoconductor, and it is possible to form a clear and accurate latent image on the photoconductor.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of an optical printer head as an image forming apparatus of the present invention.

FIG. 2 is a partial plan view of an optical stop member used in the optical printer head of FIG.

FIG. 3 is a sectional view of a conventional image forming apparatus.

[Explanation of symbols]

 1 ... Base plate 2 ... Light emitting diode element array 2a ... Light emitting diode element 3 ... Lens array 4 ... Housing 6 ... Frame 7 ... Rod-shaped lens 8 ... Optical stop member 8a ... Hole

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location G03B 27/50 D 8402-2K H04N 1/036 A

Claims (1)

[Claims] 1. A lens comprising: a housing; a lens array in which a plurality of rod-shaped lenses are arranged and housed in a frame; and a light-emitting diode element array in which a large number of light-emitting diode elements are linearly mounted. An image forming apparatus comprising an array and a light emitting diode element array fixed such that each light emitting diode element is positioned on the optical axis of each rod-shaped lens, wherein one end side of the lens array where the light emitting diode element array faces each other. And an optical diaphragm member having a plurality of holes having a diameter substantially smaller than that of each rod-shaped lens and having an arrangement substantially the same as that of each rod-shaped lens of the lens array. Image forming apparatus.