JPH04149578A - Electrophotographic device - Google Patents

Abstract

PURPOSE:To decrease the number of components and to reduce the cost by assembling optical system components including a polygon motor directly in a resin frame which is molded in one body, and fitting and positioning other various components and units and also providing an air discharge guide part for generating a flow of discharged air. CONSTITUTION:The box-shaped resin frame 60 is molded integrally out of resin containing glass fiber. A fitting seat for positioning and fixing the polygon motor P and optical components for optical writing is molded integrally at the bottom part 60c in the resin frame 60, and the optical components are fitted to the fitting seat to constitute an optical device 18, which is covered with a cover 61. A couple of rails 62 and 62 for mounting a unitized photosensitive body, a cleaning device, etc., are formed below the resin frame 60. An opening 66 is bored in a side wall 60a nearby an electrostatic charger. Then the part extending from the opening 66 to an opening 68 by passing under the resin frame 60 forms the lower part of the air discharge guide part 71.

Description

[Detailed Description of the Invention] The above invention is applicable to an electrophotographic method such as a printer, a copying machine, or a facsimile machine using a laser. The present invention relates to an electrophotographic apparatus that performs recording on a recording medium.

Example 1 and others Conventionally, this type of electrophotographic apparatus has the following configurations as shown in FIG.
For example, a frame 4 to which various parts and units such as the photoconductor 1, charger 2, and developing device 3 are mounted and supported for positioning; for example, a frame 4 that houses optical system parts for optical writing such as a laser light source, a cylindrical lens, and a polygon motor; The optical box 5 and the exhaust duct 6, which serves as a flow path for exhaust air when ozone, heat, etc. are discharged outside the apparatus main body, are each separate bodies.

As a result, the electrophotographic device has a large number of parts, which requires time and effort to assemble, increases costs, and complicates inventory management of parts.

Therefore, the present invention aims to reduce the number of parts and reduce costs.

Accordingly, the present invention according to claim 1, for example, as in the illustrated embodiment below, has a resin frame 60 formed by integral molding, and a light beam including a polygon motor. In addition to directly assembling optical system components for writing, various other components and units are also attached, positioned and supported, and an exhaust guide section 71 is provided to create a flow of exhaust air.

Further, the present invention according to claim 2 is such that, in the invention according to claim 1, the device main body 10 is configured with an upper main body 10a and a lower main body 10b, for example as in the illustrated embodiment below,
Furthermore, the resin frame 60 is provided on the main body 10a, and is rotatably attached to the lower main body 10b.
It is characterized in that the upper body 10a can be opened and closed with respect to the upper body 10a.

Further, the present invention as set forth in claim 3 is, for example, as in the illustrated embodiment below, in the invention as set forth in claim 1, the air in the device main body]O is sucked and the exhaust guide portion 71
The lower body 10 guides the fan 74 to discharge the air to the outside.
b.

Further, in the present invention as set forth in claim 4, in the invention as set forth in claim 3, openings 67 and 68 are provided in the bottom portion 6oc of the resin frame 60, for example as in the illustrated embodiment below. It is characterized in that the air inside the device main body 10 is discharged to the outside by the fan 74 through the air filter 68.

Further, the present invention as set forth in claim 5 provides an opening 44 a in the exhaust duct 44 provided in the apparatus main body 10 in the invention as set forth in claim 4, for example as in the illustrated embodiment below.
It is characterized in that the opening 44a thereof is in communication with the opening 67 of the resin frame 60.

According to the present invention described in [Works-m- and Claim]-, one resin frame 60 includes optical system components for optical writing including a polygon motor P, and various components such as a photoreceptor 16 and a cleaning device. The unit and an exhaust guide section 71 for creating a flow of exhaust air are integrally provided.

Further, in the present invention as set forth in claim 2, the apparatus body 0 is divided into an upper body 10a and a lower body 10b, and the resin frame 60 is provided on the upper body 10a.

Further, in the present invention as set forth in claim 3, the air inside the device main body 10 is sucked by the fan 74 provided in the lower main body 10b, and is guided by the exhaust guide portion 71 of the resin frame CO and discharged to the outside of the device main body 10. .

Further, in the present invention according to claim 4, the resin frame 6
0 to allow air to escape.

Furthermore, in the present invention as set forth in claim 5, the air inside the device body 10 is guided through the exhaust duct 44, and the opening 44
a through the opening 67 of the resin frame 60, and insert the device main body 1.
0 Eject outside.

Husband and wife Next, one embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 6 is an overall internal configuration diagram of a laser printer according to the present invention. In the figure, 10 is a main body of the device divided into an upper main body 10a and a lower main body 10b, and the upper main body 10a is pivotally connected to the main body 10b by a bracket (not shown) provided thereon so that it can be opened and closed using a pin 11 as a fulcrum. . Reference numeral 12 denotes a paper feed cassette that is removably loaded in the lower part of the main body 10 of the apparatus. From this paper feed cassette 12 to the paper feed roller 13
A recording medium 14 such as a sheet fed by is conveyed to the underside of a belt-shaped photoreceptor 16 at a timing determined by a pair of registration rollers 15 . The photoreceptor 16 is rotationally driven in the direction of the arrow, the surface of which is uniformly charged by the charger 17, and an electrostatic latent image is formed on the photoreceptor 16 based on an optical signal from the optical device 18. This latent image is made visible by toner in the developing device 19, and this visible image is transferred by the transfer charger 20 onto the recording medium 14 that has been conveyed. The recording medium 14 is conveyed to a thermal fixing device 21 and a visible image is fixed thereon.

Immediately after the recording medium 14 leaving the thermal fixing device 21 passes between the pair of lower paper ejection rollers 23 of the paper ejection unit N22, the paper ejection direction is switched vertically by the switching claw 24. Then, when the paper is switched upward, the paper ejection guide 25/2
6, upper paper ejection roller 27 and pinch roller 28
The paper is discharged from the upper paper discharge port 29 to the stack section 30 on the upper surface of the upper main body 10a with the image side facing down. Further, when the recording medium 14 is switched downward, the recording medium 14 is ejected from the lower paper ejection port 31 by the lower paper ejection roller 23 with the image side facing upward.

On the other hand, after the visible image has been transferred, the photoreceptor 16 has residual toner removed by a cleaning device 32, and is further neutralized by light from a static eliminator 33, in preparation for the next image forming cycle.

An intake fan 34 is arranged below the transfer charger 20, and an intake fan 34 is provided at the bottom of the lower body 10b.
After cooling the power supply unit 36 with the air taken in from 5,
Ozone is sprayed around the transfer charger 20 and discharged outside the machine as described later.

FIG. 7 is a schematic diagram of the interior of the upper body 10a in an open state. The photoreceptor 16 and the cleaning device 32 are unitized and can be attached to and detached from the upper body 10a. Optical device 18, static eliminator 33, and charger 1
7 is also attached to the upper main body 10a side. On the other hand, on the lower body 10b side, an operation panel 38 is provided on the upper cover 37, and a front door 39 is hinged to the lower side thereof so as to be openable and closable. The front door 39 is provided with a paper feed port 40 for one manual feed and an optional paper feed tray.
A recording medium 14 fed by a paper feed roller 13 is placed on the inner surface of the
A paper feed guide 41 is provided to guide the paper.

Further, an exhaust duct 44 is provided on the upper body 10a side.A shielding plate (6) is provided on the lower side edge of the exhaust duct 44.
A flap 45 is rotatably mounted on a shaft 46. When the upper body 10a is closed as shown in FIG. 6, the exhaust duct 44 is located above the heat fixing device 21. A shielding plate 45 hangs down from the exhaust duct 44 and is provided between the exhaust duct 44 and the heat fixing device 21 and the paper ejection guide 25.
located between.

By the way, as shown in FIG. 1, the upper body 10a is provided with a box-shaped resin frame 60 formed by integral molding, and this resin frame 60 is made of reinforced resin containing glass fiber. And this resin frame 60
The inner bottom part 60c is integrally molded with a mounting seat for positioning and fixing a polygon motor P for deflecting a laser beam and optical parts for optical writing such as a lens and a mirror (not shown).

The optical component is attached to this mounting seat to constitute an optical device 18, and this optical device 18 is covered with a cover 61. Furthermore, a pair of rails 62 are formed on the lower side of the resin frame 60 to attach the unitized photoconductor 16, cleaning device 32, etc., and the photoconductor 16 and cleaning device 32 are detachably attached thereto. It is being

Then, the resin frame 60 is rotatably attached to the lower body 11b by a pin 11 inserted into a pin hole of a bracket 63 provided on the feeding side of the recording medium 14, and the lower body 11
The upper body 10a can be opened and closed relative to the upper body 10a.

Further, on the opposite side of the resin frame 60 to the side on which the bracket 63 is pivotally attached to the lower body 10b, a positioning protrusion 64 that engages with a positioning groove 81 and a hook 82 provided in the upper cover 37 of the lower body 10b, respectively, is provided. Pin holder 65a
- A pin 65 held by 65a is provided, and when the upper body 10a is closed to the lower body 10b, the upper body 1
0a is adapted to be locked to the lower body 10b. Further, a paper discharge guide 25 is arranged near the side of the resin frame 60 that is pivoted to the lower body fob, and an opening 66 is provided near the charger 17 on the left side wall 60a with respect to the conveying direction of the recording medium 14. be. The portion extending from the opening 66 to the opening 68 via the lower side of the resin frame 60 forms the lower part of the exhaust guide section 7.

Further, an optical device 18 is provided at the bottom 60c of the resin frame 60.
Openings 67 and 68 are provided near the polygon motor P,
A thick opening 69 is provided in the right side wall 60b near the openings 67 and 68.

Then, from the right side wall 60'b to the side wall surface and the bottom 60'
A pair of partition plates 70, 70 perpendicular to c are protruded, and the opening 69 and the openings 67, 68 are accommodated in one compartment formed by the partition plates 70, 70, and this compartment covers the upper part of the exhaust guide part 71. is forming. And this partition plate 70・
70 has a triangular shape with an upper end inclined from the upper edge of the side wall 60b toward the bottom surface 60C, and a cover (not shown) is attached to this inclined upper end.
covers part of.

A duct 72 communicating with the opening 69 is located on the right side wall 60b.
attached to the outer surface of the duct 72], O
b is connected to an ozone decomposition filter 73 attached to the lower body 10b, and this filter 73 is connected to a fan 74 provided in the lower body 10b.

Furthermore, an opening 44a communicating with the opening 67 is formed in the upper part of the exhaust duct 44, as shown in FIG.

Furthermore, the end of the exhaust duct 44 on the fan 74 side is
It communicates with a hole 63a provided in the bracket 63,
This laser printer has an opening 44a from the exhaust duct 44.
The exhaust passage communicates with the opening 67 through the exhaust guide portion 71, and the duct 72 communicates with the fan 74 through the exhaust guide portion 71, and the exhaust passage directly communicates with the fan 74 from the hole 63a through the duct 72. FIG. 3 shows openings 66, 67, 68 provided in the resin frame 60, duct 72, filter 73,
The related positions of the fan 74 and the like are shown.

In the laser printer configured as described above, when the fan 74 is operated, the air sucked in from the opening 66 near the charger 17 charges the lower part of the exhaust guide section 71 as shown in FIG. It flows along the charger 17, passes through the opening 68, the upper part of the exhaust guide part 71, enters the duct 72° filter 73, and is discharged to the outside by the fan 74.

On the other hand, in the vicinity of the transfer charger 20, after the power supply unit 36 is cooled with air sucked in from the intake port 35 provided at the bottom of the lower body 10b by the intake fan 34, the area around the transfer charger 20 or the heat fixing device is cooled. Passing around M21 and further passing around cleaning device 32,
It is guided to the exhaust duct 44. And exhaust duct 44
The air is efficiently exhausted to the outside by the fan 74 either directly or through the opening 44a of the exhaust duct 44 through the upper part of the exhaust guide section 71, the duct 72, and the filter 73.

Further, as shown in FIG. 5, an ozone decomposition filter 73
can be replaced by opening the upper body 10a and taking it out upwards.

Therefore, according to the present invention, it is possible to reduce costs by reducing the number of parts and eliminating the labor required for inventory management of parts and one assembly.

Further, according to the invention described in claim 2, maintenance such as repairing the device, replacing one part, and removing jammed paper becomes easy.

Further, according to the third aspect of the invention, the vibration of the fan motor is not transmitted to the optical system within the resin frame, so that recording quality is improved.

Moreover, according to the invention set forth in claim 4, design becomes easy.

Moreover, according to the invention set forth in claim 5, air within the apparatus main body can be efficiently exhausted.

[Brief explanation of the drawing]

Fig. 1 is a perspective view showing the configuration of the main parts of the laser printer of the present invention, Fig. 2 is an exploded perspective view showing the communication part between the duct and the exhaust duct, and Fig. 3 is the opening and fan provided in the resin frame. FIG. 4 is a partial vertical sectional view of the vicinity of the charger, FIG. 5 is a perspective view of the laser printer showing the removal of the filter, and FIG. 6 is a diagram of the laser printer. FIG. 7 is a schematic diagram of the structure with the upper body opened. FIG. 8 is a schematic diagram of a conventional laser printer. ]0......Device body, 10a...
...Upper body, 10b...Lower body, 44...
...Exhaust duct, 44a...Opening, 6
0... Resin frame, 67/68...
...Opening, 71...Exhaust guide section.

Claims (1)

[Claims] 1. Optical system parts for optical writing, including a polygon motor, are directly assembled to the resin frame formed by integral molding, and various other parts and units are attached to position and support, while ejecting An electrophotographic device equipped with an exhaust guide section that creates air flow. 2. The main body of the device is composed of an upper main body and a lower main body, and the resin frame is provided on the upper main body and is rotatably attached to the lower main body, so that the upper main body can be opened and closed with respect to the lower main body. The electrophotographic apparatus according to claim 1. 3. The electrophotographic apparatus according to claim 2, wherein the lower body is provided with a fan that sucks air inside the apparatus body, guides it through the exhaust guide section, and exhausts it to the outside. 4. The electrophotographic apparatus according to claim 3, wherein an opening is provided at the bottom of the resin frame, and the air inside the apparatus main body is discharged to the outside by the fan through the opening. 5. An aperture is formed in the exhaust duct provided in the device main body, and the aperture is communicated with an aperture in the resin frame.
The electrophotographic apparatus according to claim 4.