JP3323471B2 - Unit take-out method in color image recording apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a color printer,
Color that can be applied to a color copying machine or a color fax, etc.
The present invention relates to a method for taking out a unit in an image recording apparatus .

[0002]

2. Description of the Related Art In general, in order to form a color image by electrophotography, a method of forming a color image by superposing toner images of yellow, magenta, cyan, and black on a transfer material has been adopted. As a method of forming this color image, a toner image of each color is sequentially formed on one photoconductor, and the transfer material wound around the transfer drum is rotated to repeatedly oppose the photoconductor, and the color of each color sequentially formed there is formed. A transfer drum system in which toner images are superimposed and transferred, and a plurality of image forming units are arranged side by side, and each color toner image is sequentially transferred to a transfer material conveyed by a belt or the like by passing through the position of each image forming unit. In general, a continuous overlapping method in which the sheets are overlapped is performed.

The former using the transfer drum system is an example of a color image forming apparatus disclosed in Japanese Patent Application Laid-Open No. 1-252982.

FIG. 5 shows an outline of the entire configuration of the conventional example, and the configuration and operation will be briefly described below. In FIG. 5, reference numeral 101 denotes a photosensitive member, and
02, a developing unit 103, a transfer drum 104, and a cleaner 105 are provided. The developing unit 103 includes a Y developing unit 106 for forming a yellow toner image, an M developing unit 107 for magenta, and a C developing unit 10 for cyan.
8, a Bk developing unit 109 for black, and the whole is rotated so that each developing unit can be sequentially developed so as to face the photoconductor 101. The toner density is detected by an optical detection means for detecting the toner density on the developing roller at the developing position, and the toner is replenished at another position rotated by 90 ° from the developing position in accordance with the toner density detected value.
When the single color is continuous, the entire unit rotates when the toner concentration is reduced, and the developing device having the reduced toner concentration is moved to the toner supply position to supply the toner. The main body is provided with a toner hopper 118 corresponding to the toner of each developing device, and a mechanism for sending the toner to a toner supply position. Each developing unit is provided with an opening for replenishing the toner sent from the toner hopper 118 and a replenishing mechanism, so that the toner can be replenished at the toner replenishing position when the toner runs short.

During operation, the transfer drum 112 and the photoreceptor rotate at a constant speed in the direction of the arrow while facing each other.

First, when the operation is started, the photosensitive member 101 rotates in the direction of the arrow, and the surface thereof is uniformly charged by the charger 102.

Thereafter, the surface of the photoreceptor is irradiated with a laser beam 110 modulated by a signal for forming a first color yellow image.
To form a latent image. Further, this latent image is first developed in the yellow developing unit 106 facing the photoreceptor to form a yellow toner image. By the time the formed yellow toner image comes to a position facing the transfer drum 104, one sheet of the transfer material sent from the sheet feeding unit 111 has already been formed on the outer periphery of the transfer drum 104 with the claw part. The toner image is formed such that the yellow toner image on the photoreceptor is opposed to a predetermined position of the paper and is wrapped around the paper.

After the yellow toner image on the photoreceptor is transferred to the sheet by the operation of the transfer charger 113, the surface of the photoreceptor is cleaned by the cleaner 105 to prepare for the formation of the next color image. Subsequently, magenta, cyan, and black toner images are formed in the same manner. At that time, the developing unit 103 sets each developing unit that uses the color corresponding to the photoconductor to be in a developable state. The diameter of the transfer drum is large enough to allow the longest sheet to be wound and to replace the developing device between the images of each color.

Laser beam 110 for forming images of each color
Is performed at a timing such that the toner images of the respective colors on the photoreceptor and the toner images already transferred onto the paper on the transfer drum are aligned and faced with each other as they rotate. In this manner, the four color toner images are transferred to the transfer drum 10.
4, the image is transferred onto the sheet, and a color image is formed on the sheet. After the toner images of all colors have been transferred, the sheet is peeled off from the transfer drum 104 by the peeling claws 114, the upper toner image is fixed by the fixing device 116 via the transport section 115, and the sheet is discharged out of the apparatus. The above is a brief description of the configuration and operation of the conventional example.

[0010]

In the above configuration, since the toner hopper is provided on the main body side, a complicated mechanism for supplying toner to the developing unit is required, and the apparatus becomes large and complicated. In addition, the developing unit requires an opening for replenishing toner, so toner spills during toner replenishment not only contaminates the main unit, but also causes spills when replacing the developing unit, making replacement difficult. To Further, the toner supply path from the hopper on the main body side to the developing device becomes long, and the toner may be clogged in the supply path due to the environment or the like, and the toner supply may not be performed normally. Further, in the above configuration, when the image is continuously output in a single color and the toner density is reduced, it is necessary to move the developing device to the toner replenishing position, which hinders the continuous output of the image.

SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a color image recording apparatus which has a simple and compact structure of a developing section, does not cause toner spill, and has excellent maintainability .
It is intended to provide a method of taking out a unit .

[0012]

[MEANS FOR SOLVING THE PROBLEMS] To achieve the above object
Next, the unit arrangement in the color image recording apparatus of the present invention
The dispensing method includes a color toner container and a developing roller
A rotating body that collectively arranges a plurality of developing units in a cylindrical shape
And a photoconductor housed in the unit.
The image unit is a color toner housed inside the unit in advance.
Can be supplied to the outside through the opening provided with the developing roller.
And at the developing position by the rotation of the rotating body.
The opening is on the front side of the apparatus and the recording paper handling surface
The opening in the exchange position in a state located in the side direction
Parts are placed so that they face the top cover in the closed state.
Unit for accommodating the photoconductor
Is constituted by disposing the photosensitive member at one end, and a developing roller
In the direction perpendicular to the axis of
Front of the recording device and before the recording paper handling surface
While being guided detachably from the opening and closing part, the photosensitive
Image formation position from the front opening / closing section with the body facing the inside of the apparatus
Color image recording that is configured to be movable to guide to
A method for removing a unit from the apparatus.
The opening of the image unit is closed at the replacement position.
After being placed in a state facing the top cover of the state,
Open the face cover and take it perpendicular to the rotation axis of the rotating body.
And the unit accommodating the photoreceptor
From the front opening / closing part in a direction perpendicular to the rotation axis of the rotating body.
I took it out.

With this configuration, a small and simple maintainer
Unit in a color image recording device with good
It is possible to obtain a dispensing method. Specifically, the development unit
To the top cover with the opening closed at the replacement position.
After opening the top cover, rotate the rotating body.
Take out in the direction perpendicular to the rotation axis of the
The unit to be rotated from the front opening / closing part to the rotation axis of the rotating
Very easy maintenance due to taking out in the direction
improves.

[0014]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a color image recording apparatus according to an embodiment of the present invention.
This will be described using a color electrophotographic apparatus as an example with reference to the drawings.

FIG. 1 shows a color electronic photograph to which the present invention is applied.
1 is an overall configuration diagram of an embodiment of a true device . First, four fan-shaped developing units 1Bk, 1Y, 1M, and 1C for each color of black, yellow, magenta, and cyan form a developing unit group, and are arranged in an annular shape as shown in the figure. Reference numeral 2 denotes a photoreceptor / belt unit, which includes a photoreceptor unit and an intermediate transfer unit. Each developing unit is made of the same constituent members except for a developer to be put in the developing unit. Therefore, for simplification of the description, the developing unit for black will be described, and other colors will be omitted. Note that, for each color, the same portions are denoted by the same reference numerals, and if it is necessary to distinguish each color, a character indicating each color is denoted by the reference numeral. FIG. 2 shows the black developing unit 1Bk in detail.

In FIG. 2, reference numeral 14a denotes a first hopper containing a developer in which a carrier and a toner are mixed, and 14b
Is a second hopper containing only toner, 15 is an opening opened for toner supply, 16 is a lid for opening and closing the opening 15, and 17 is an agitator for toner supply, 18a and 18b. Reference numeral denotes an agitator for transporting the developer in the first hopper 14a to the developing portion.

Reference numeral 19 denotes a rotatable developing electrode roller made of aluminum; 20, a non-rotating magnet coaxially fixed inside; 20, an AC high-voltage power supply for applying a voltage to the developing electrode roller 19; Is a magnetic blade that regulates the thickness of the toner layer. The electrode roller 19 has a diameter of 1
It was rotated in the direction of the arrow at a peripheral speed of 60 mm / s at 6 mm.

In the first hopper 14a, a two-component developer 26 obtained by mixing a ferrite carrier 24Bk having a particle diameter of 50 μm, the surface of which is coated with a silicone resin, and a toner 25Bk is mixed.
Bk was added, and was adhered to the surface of the electrode roller 19 by conveyance by the agitators 18a and 18b and magnetic force. The toner used is obtained by dispersing a pigment or the like in a polyester resin and further adding an additive. The developer 26BK attached to the electrode roller 19 is transported to a developing site in a state where the layer is regulated by the blade 22, and is used for development.

In the second hopper 14b, 400 g of toner is hermetically stored at the time of assembling the developing unit, and it is possible to output 5,000 originals corresponding to 5% of A4 single color without replenishing toner from outside the unit. I have. When the toner in the second hopper 14b runs out, the user only needs to replace the developing unit.

The developing unit shown in FIG. 2 is a developing unit for black, and also shows the vertical position of the developing unit at the developing position. In the figure, since the developer second hopper 14b containing the toner 25Bk is located above the first hopper 14a, the unit can be provided inside the toner hopper 14b without providing a feed mechanism or a stirring mechanism for moving the toner. The toner is supplied to the vicinity of the opening 15 by the rotational movement and the weight of the toner, and the toner can be smoothly supplied.

Further, reference numeral 28 denotes a cover for protecting the electrode roller 19, and FIG. 2 shows a state opened for development. When the developing unit is located at a position other than the developing position, the cover 28 holds the electrode roller 1 carrying the developer.
9 to prevent contamination due to developer dust and the like and contamination inside the apparatus due to toner when the unit rotates.

The other developing units 1Y, 1M, and 1C other than black have the same configuration and operate.

Referring again to FIG. 1, the configuration of the printer unit will be described. Reference numeral 9 denotes an organic photoreceptor in which phthalocyanine is dispersed in a polycarbonate-based binder resin, 10 denotes a charging roller for negatively charging the photoreceptor, 13 denotes a signal beam by a laser beam, and 27 denotes cleaning of toner remaining on the photoreceptor surface after transfer. It is a cleaner. Developing units 1Bk, 1Y, 1M, and 1C arranged in a ring form a support (not shown).
As a whole, is driven by a moving motor 30 as a moving means controlled by a control circuit 29, and is rotatable in a direction indicated by an arrow around a cylindrical fixed and non-rotating shaft 31. . Each developing unit is sequentially moved to a developing position 50 facing the photoconductor 9. The support of the developing units 1BK, 1Y, 1M, and 1C has a means (not shown) for detecting that each developing unit has moved to the developing position 50. Each time the movement of each unit is completed, the movement is completed. The corresponding signal is transmitted to the control circuit 29.

Reference numeral 3 denotes a laser exposure device, which is a signal light 13 of a laser beam modulated by a signal input to a printer unit.
And irradiates the photosensitive member 9 to form a latent image.

Numeral 60 denotes a magnetoresistive toner concentration sensor installed on the shaft 31 so that the toner concentration in the first hopper 14a of the developing unit can be detected when the developing unit is moved to the developing position 50. ing. The thickness of the side wall of the developing unit corresponding to the position of the toner density sensor 60 is set thin so that the toner density can be stably detected. Further, in order to further stabilize the detection, the side wall of the unit corresponding to this sensor may be changed to a material having good smoothness and strength even though it is thin. In this embodiment, the toner concentration sensor 60 is fixed without using the separation / contact mechanism, but the position of the toner concentration sensor 60 is slightly shifted to the inside of the rotation when the unit is rotated using the separation / contact mechanism. A configuration in which a separation / contact mechanism may be used, or a configuration in which a spring member or the like is used to press against the side wall of the unit from behind may be used. Further, in this embodiment, the toner density sensor 60 is of a magnetoresistive type. However, for this sensor, for example, an optical reflection density sensor or the like may be used in which the corresponding side wall of the developing unit is transparent. Needless to say.

Next, the operation of the printer will be described with reference to FIG. The diameter of the photoconductor 9 is 30 mm, and the peripheral speed is 60 mm /
s rotated in the direction of the arrow.

The photosensitive member 9 is charged with a charging roller 10 at -700 V
Was charged. The photosensitive member 9 was irradiated with signal light 13 by a laser beam to form an electrostatic latent image. At this time, the exposure potential of the photoconductor was -100V.

Next, the surface of the photoreceptor 9 is set to 400
Developer 2 in a state where layers are opposed and spaced apart by μm
It passed in front of the electrode roller 19 carrying 6BK. When the photosensitive member 9 passes through the uncharged area, an AC voltage of 750 V0-p (1.5 kV peak-to-peak) superimposed with a DC voltage of +100 V is applied to the electrode roller 19 by the AC high-voltage power supply 21. Applied. Then, -7
When passing through the surface of the photoreceptor 9 on which the electrostatic latent image is written and charged to 00V, the electrode roller 19 is superposed with a DC voltage of -400 V by an AC high-voltage power supply 21 so that 750 V0-p (peak-to-peak 1. 5 kV) AC voltage (frequency 1.5 kHz) was applied. As a result, a negative-positive inverted toner image was left only on the image portion on the photoreceptor 9. The carrier and the toner attached to the electrode roller 19 rotating in the direction of the arrow are returned to the developer first hopper 14a again and used for the next development.

Thus, a black toner image is obtained on the photoreceptor 9. Reference numeral 32 denotes an intermediate transfer belt, which is an endless belt-like semiconductive urethane film having a thickness of 100 μm, and a transfer roller 33 and a stainless steel roller 34 around which are formed a urethane foam having a low resistance treatment. And can be moved in the direction of the arrow.

The transfer roller 33 is lightly pressed against the photosensitive member 9 via the intermediate transfer belt 32. The transfer roller 33 is connected to the roller 34 via the intermediate transfer belt 32.
A second transfer roller 35 having the same configuration as described above is lightly pressed so as to be able to be driven and rotated.

Intermediate transfer belt 32 and second transfer roller 35
A paper transport path is formed in the pressed nip portion so that the paper is sent from the paper supply unit 36.

Reference numeral 40 denotes a belt cleaner section including a belt cleaner for cleaning the intermediate transfer belt. The waste toner collected by the belt cleaner 40 is sent to the photoconductor cleaner 27 via a waste toner conveying pipe 37.

The photoreceptor / belt unit 2 includes a photoreceptor 9,
Charging roller 10, photoreceptor cleaner 27, intermediate transfer belt 32, transfer roller 33, roller 34, waste toner conveying pipe 3
7, and the structure including the belt cleaner portion 40 allows easy replacement.

A fixing unit 44 fixes the toner image on the sheet after the transfer, and a discharge roller 45 discharges the sheet after the fixing.

The above is the description of the main structure of the electrophotographic apparatus and the developing unit to which the present invention is applied . Next, the operation of this apparatus during color development will be described.

First, each developing unit is located at the position as shown in FIG. 1, the developing unit 1Bk for black is located at the developing position 50 facing the photoreceptor 9, and the side wall of the developing unit has a toner density. The sensor 60 is positioned so as to be almost in contact as shown. Black signal light is input to the photoconductor 9 by the laser exposure device 3, and development with black toner is performed. At the same time as the development is started, the toner concentration sensor 60 starts detecting the toner concentration of the developer in the first hopper 14a,
The toner supply is performed according to the detection signal.

FIG. 3 shows a driving section of the toner supply agitator 17 of the unit under development. 70 is a gear for rotating the agitator 17, and 71 is a gear 7 provided on the main body side.
The reference numeral 72 denotes a motor for driving 0, and 72 denotes a gear for transmitting the drive of the motor 71 to the gear 70. When replenishing toner in accordance with the output of the toner density sensor 60, the motor 71 rotates, the driving force is transmitted to the agitator 17 via the gear 72 and the gear 70, and the agitator 17 rotates, and the inside of the second hopper 14b Is supplied into the first hopper 14a. When the developing unit group is rotationally moved, the gear 72 is separated from the gear 70, and can be connected when the movement of the unit group is completed. In the present embodiment, a motor for supplying toner is newly provided on the main body side. However, the drive may be transmitted from a driving unit provided on the main body side for another purpose, such as a motor for driving a photoconductor. . In this case, the drive control of the agitator 17 can be easily performed by providing a drive separation / contact means such as a clutch during the transmission of the drive.

As shown in FIG. 2, the lid 16 in the developing unit is rotatably fixed to one side by a hinge so as to open only when a force is applied from the second hopper 14b side, and is opened when no force is applied. A torsion spring (not shown) is attached to close the part 15. In addition, the agitator 17 is configured to push open the lid 16 while stirring the surrounding toner to supply the toner. With this configuration, toner replenishment is performed according to a signal from the toner density sensor 60. Actually, the toner density detection is started three seconds after the start of the development so that the detection of the toner density can be performed after the output of the sensor is stabilized. Agitator 17 when toner supply is not performed
Is stopped at a position where the lid 16 cannot be pushed open. In addition, when the developing unit is not developing, especially when the developing unit is moved to a place other than the developing position, the lid 16 is provided with a lock mechanism (not shown) provided on a support (not shown) of the developing unit. (Not shown) to prevent the toner from being mixed into the first hopper from the second hopper except at the time of toner replenishment.

The black toner image developed on the photosensitive member 9 is sequentially transferred onto the intermediate transfer belt 32 by the action of the transfer roller 33.

Developing unit group 1Bk, 1Y, 1M, 1C
The whole is driven by the movement motor 30 to rotate integrally in the direction of the arrow in FIG. 1 and stops at the position where the developing unit 1Y reaches the developing position 50 by just rotating by 90 degrees, and the developing unit 1Y is positioned. . Since the portion other than the electrode roller 19 of the developing unit is located inside the rotating arc at the tip of the electrode roller 19, the photoconductor 9 does not contact the developing unit. Also, the cover 28 of the electrode roller 19
Each of the developing units can be opened according to the movement before being located at the developing position 50 and can be stored in the developing unit as shown in FIG. As before, the laser exposure device inputs signal light to the developing unit 1Y using the yellow signal, and the yellow toner image is formed and transferred. At this time, the timing of writing the yellow signal light is controlled such that the next yellow toner image is positionally matched with the black toner image previously transferred onto the intermediate transfer belt 32. During this time, the second transfer roller 35 and the cleaner section 40 are slightly separated from the intermediate transfer belt, and do not act on the toner image thereon.

The same operation as described above is performed for magenta and cyan, and the four color toner images are superimposed on the intermediate transfer belt so as to match in position to form a color image. After the transfer of the final cyan toner image, the four color toner images are collectively transferred to the sheet sent from the sheet feeding unit 36 at the same time by the action of the second transfer roller 35. The toner image transferred to the paper is fixed by the fixing device 44. Thereafter, the sheet is discharged out of the apparatus via a discharge roller 45. The transfer residual toner remaining on the intermediate transfer belt 32 is cleaned by the action of the cleaner unit 40 and prepared for the next development.

Next, the operation in the monochrome mode will be described. In the single color mode, first, a developing unit of a predetermined color is moved to a developing position and positioned. Next, development of a predetermined color and transfer to the intermediate transfer belt are performed in the same manner as before, and this time, the transfer is continued as it is, and then transferred to the sheet sent from the sheet supply unit by the next second transfer roller. To go.

Next, maintenance of the apparatus will be described with reference to FIG. It is assumed that the developer of a specific color is not consumed and maintenance is performed. First, the developing unit group is rotated by the action of the moving motor 30 controlled by the control circuit 29 in response to a command from an operator (by a switch (not shown)), and the developing unit of the target color is moved to the upper position (the developing unit in FIG. 1). 1C). Then, as shown in FIG. 3, the operator opens the cover 46 located at the upper part of the apparatus main body, takes out only the developing unit of interest from the outside of the apparatus, and mounts a new developing unit of that color.

At this time, since the electrode roller cover is in the closed state, the operator does not stain his hands with the developer or the like and does not spill the developer.

Further, since the developing unit to be replaced can be replaced at an upper position different from the developing position, the developing unit can be easily taken out of the apparatus because it is not disturbed by the related members such as the transfer section and is not positioned. And maintainability is excellent.

As for the photoreceptor / belt unit 2, the operator is notified of the replacement time by displaying on the panel of the main body that the life of the unit has come to an end. The operator opens the front door 47 based on this display, removes the used photoconductor / belt unit 2, and mounts a new unit. 4
Reference numeral 8 denotes a shutter that covers a portion where the photoconductor 9 of the photoconductor / belt unit 2 contacts the electrode roller 19 of the developing unit.
Reference numeral 9 denotes a shutter that covers a portion where the belt 32 of the photoreceptor / belt unit contacts the second transfer roller 35.
Reference numeral 9 denotes a configuration in which the front door 47 is opened, and the shutter 48 closes when the photoconductor / belt unit is removed from the main body. Thereby, the operator can replace the photoconductor / belt unit 2 without touching the intermediate transfer belt and without spilling waste toner.

The above is the description of the configuration and operation of the embodiment.
In this configuration, the intermediate transfer member is used. However, the essence and the function and effect of the present invention are not changed even when a transfer method such as a transfer drum method in which paper is wound directly onto paper is used.

In the above embodiments, a specific developing method is used for the developing unit. However, if a method of mixing a carrier and a toner is used, a developing unit having a structure using another developing method may be used. However, the essence and effect of the present invention do not change.

Further, the developing units are completed independently as one developing unit for each color, and the structure is simplified without the need for a complicated toner supply mechanism. Further, the photoconductor unit and the intermediate transfer belt unit are also unitized, so that the user only has to replace the developing unit and the photoconductor belt unit of each color, and the maintenance property is excellent.

In addition, each developing unit is configured to easily supply toner, and only one toner density sensor and toner supplying mechanism need to be mounted on the main body for each of the four developing units. The configuration is simplified.

Since the size of the intermediate transfer member can be reduced, the size of the apparatus can be reduced.

[0052]

As is apparent from the above description, the present invention
According to the, good maintenance of a small simple color
Obtaining a unit removal method for an image recording apparatus
Can be. Specifically, move the developing unit to the replacement position.
With the opening facing the top lid in the closed state.
After that, open the top cover, and
And the unit that houses the photoconductor
From the opening / closing part in a direction perpendicular to the rotation axis of the rotating body.
As a result, maintainability is greatly improved.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a color electrophotographic apparatus to which the present invention is applied .

FIG. 2 is a configuration diagram of a developing unit used in a color electrophotographic apparatus to which the present invention is applied .

FIG. 3 is a configuration diagram illustrating transmission of driving of a toner supply unit used in a color electrophotographic apparatus to which the present invention is applied;

FIG. 4 is an explanatory diagram when the developing unit and the photoconductor / belt unit are replaced.

FIG. 5 is a configuration diagram of a conventional color electrophotographic apparatus.

[Explanation of symbols]

 1Bk, 1C, 1M, 1Y Developing unit 2 Photoreceptor / belt unit 3 Laser exposure device 9 Photoreceptor 13 Signal light 28 Electrode roller cover 32 Intermediate transfer belt 33 Transfer roller 35 Second transfer roller 50 Developing position 60 Toner density sensor

────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ Identification code FI G03G 21/16 G03G 15/00 554 (56) References JP-A-61-217073 (JP, A) JP-A-60-257459 ( JP, A) JP-A-4-349481 (JP, A) JP-A-62-44779 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) G03G 15/01-15/01 117 G03G 15/08-15/095 G03G 15/00 550 G03G 21/16-21/18

Claims (1)

(57) [Claims] An image forming apparatus includes a color toner container and a developing roller.
A rotating body that collectively arranges a plurality of developing units in a substantially cylindrical shape
And a photoreceptor housed in the unit, wherein the developing unit is
-Supply toner to the outside through the opening provided with the developing roller
The opening portion at a developing position by rotation of the rotating body.
Is located on the front side of the apparatus and in the direction of the recording paper handling surface side.
In the exchange position, the opening is closed.
It is configured to be arranged respectively in a state facing the lid.
The unit accommodating the photoconductor has the photoconductor at one end.
And arranged vertically in the direction perpendicular to the axis of the developing roller.
And moved to the front side of the device,
It can be removed from the front opening and closing part provided on the recording paper handling side
While the photoconductor is directed toward the inside of the device.
Can be moved from the front opening / closing part to the image forming position
Unit in a color image recording device configured to
In the removing method, the developing unit may be disposed at the replacement position with the opening portion.
After being arranged in a state facing the top cover in the closed state,
Open the top cover and move it perpendicular to the rotation axis of the rotating body.
And remove the unit that houses the photoconductor from the front opening / closing unit.
Taking out in a direction perpendicular to the rotation axis of the rotating body.
To take out unit in color image recorder
Law.