JP3874907B2 - Color image recording device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a color image recording apparatus for forming a color image.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a color image recording apparatus has image forming portions for each color of yellow, magenta, cyan, and black, and each image forming portion includes a recording head formed by arranging recording elements in a line shape. The recording medium is fed one by one from the paper storage cassette, is attracted to the conveyance belt, and is conveyed in a direction perpendicular to the arrangement direction of the recording elements.
[0003]
The image forming unit forms a toner image of each color in units of lines with toners of yellow, magenta, cyan, and black, and sequentially superimposes the toner images on the recording medium.
[0004]
[Problems to be solved by the invention]
However, in the conventional color image recording apparatus, even when only a predetermined color toner image is formed, the image forming units for all the colors are operated, and the photosensitive drum and the transport belt of each image forming unit are connected. Since the contact is made directly or via the recording medium, the photosensitive drum and the conveyor belt are worn and the life is shortened.
[0005]
In addition, as each image forming unit is operated, the toner of each color is greatly deteriorated, the life of the toner is shortened, and the image quality is deteriorated.
The present invention solves the problems of the conventional color image recording apparatus, can extend the life of the photosensitive drum, the conveyance belt and the toner, and can improve the image quality. The purpose is to provide.
[0006]
[Means for Solving the Problems]
Therefore, in the color image recording apparatus of the present invention, an endless conveyance belt that conveys a recording medium as it travels is disposed opposite to the conveyance belt, and takes a retracted position and an image forming position, respectively. A plurality of image forming portions for forming a toner image on the photosensitive drum when placed at an image forming position; transfer means disposed to face each of the photosensitive drums with the conveying belt interposed therebetween; Each image forming unit is provided with a motor, and an image forming unit moving means for selectively placing each image forming unit at a retracted position and an image forming position by switching the driving direction of each motor, and each motor The position holding means for holding each image forming unit in the retracted position by driving the image forming unit, and operating the position holding unit as the image forming unit is pulled out. Having an interlocking mechanism placed avoid position, wherein by operating the position holding means, and a motor stopping means for the stopping the motors in a state of placing the respective image forming portions to the retracted position.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a first schematic diagram of a color image recording apparatus according to the first embodiment of the present invention, FIG. 2 is a second schematic diagram of the color image recording apparatus according to the first embodiment of the present invention, and FIG. FIG. 4 is a perspective view of the image forming unit placed at the image forming position in the first embodiment of the present invention, and FIG. 4 is a perspective view of the image forming unit placed in the retracted position in the first embodiment of the present invention. It is.
[0010]
In the figure, in the color image recording apparatus 11, four sets of first to fourth printing mechanisms P1 to P4 are arranged in a tandem type in order along the conveyance direction of the recording medium 21, and the first to fourth printing mechanisms are arranged. Each of the printing mechanisms P1 to P4 includes an electrophotographic LED printing mechanism.
The first printing mechanism P1 transfers the yellow image forming unit 12Y, the LED head 13Y that exposes the surface of the photosensitive drum 16, and the yellow toner image formed by the image forming unit 12Y to the recording medium 21. It comprises a transfer roller 14Y as transfer means.
[0011]
Further, the second printing mechanism P2 uses the magenta image forming unit 12M, the LED head 13M that exposes the surface of the photosensitive drum 16, and the magenta toner image formed by the image forming unit 12M as the recording medium 21. It comprises a transfer roller 14M as a transfer means for transferring the toner to the sheet.
The third printing mechanism P3 uses the cyan image forming unit 12C, the LED head 13C that exposes the surface of the photosensitive drum 16, and the cyan toner image formed by the image forming unit 12C as a recording medium 21. It comprises a transfer roller 14C as a transfer means for transferring the toner onto the surface.
[0012]
Further, the fourth printing mechanism P4 includes a black image forming unit 12K, an LED head 13K that exposes the surface of the photosensitive drum 16, and a black toner image formed by the image forming unit 12K. It comprises a transfer roller 14K as a transfer means for transferring to the ink.
The image forming units 12Y, 12M, 12C, and 12K all have the same structure, and the photosensitive drum 16 that is rotated in the direction of arrow a about the shaft 15 and the surface of the photosensitive drum 16 are uniform. It comprises a charging roller 17 for uniformly and uniformly charging, and a developing unit 18. The developing unit 18 includes a developing roller 19 and a toner tank (not shown).
[0013]
Next, the LED heads 13Y, 13M, 13C, and 13K will be described.
The LED heads 13Y, 13M, 13C, and 13K all collect an LED array (not shown), a drive IC (not shown) that drives the LED array, a substrate (not shown) that mounts the drive IC, and the light from the LED array. The LED array is composed of a rod lens array (not shown) and the like, and the LED array is selectively caused to emit light in accordance with a color image signal transmitted from a host device via an interface (not shown) to form an electrostatic latent image on the surface of the photosensitive drum 16. Then, the toner on the developing roller 19 is attached to the electrostatic latent image by electrostatic force to form a toner image.
[0014]
Each LED head 13Y, 13M, 13C, 13K is pressed downward by the spring 17a.
Further, an endless transport belt 20 is movably disposed at each transfer portion between the photosensitive drum 16 of each of the image forming portions 12Y, 12M, 12C, and 12K and the transfer rollers 14Y, 14M, 14C, and 14K. Is done.
[0015]
The developing unit 18 of the image forming unit 12Y has yellow toner, the developing unit 18 of the image forming unit 12M has magenta toner, and the developing unit 18 of the image forming unit 12C has cyan toner. The black toner is accommodated in the developing unit 18 of the unit 12K.
Further, the yellow image signal of the color image signal is applied to the LED head 13Y of the first printing mechanism P1, and the magenta image signal of the color image signal is applied to the LED head 13M of the second printing mechanism P2. The cyan image signal of the color image signal is input to the LED head 13C of the mechanism P3, and the black image signal of the color image signal is input to the LED head 13K of the fourth printing mechanism P4.
[0016]
A protrusion 24 a is formed at the upstream end of the frame 24 in the conveyance direction of the recording medium 21, and the protrusion 24 a is rotatable with respect to a guide groove (not shown) formed in the main body of the color image recording apparatus 11. To be engaged. In addition, a protruding plate portion 24 b is formed at the downstream end of the frame 24 in the conveyance direction of the recording medium 21.
[0017]
Further, camshafts 22 are rotatably supported with respect to the main body of the color image recording apparatus 11 on the downstream side of the image forming units 12Y, 12M, 12C, and 12K in the conveying direction of the recording medium 21, respectively. An eccentric cam 23 is fixed in the vicinity of both ends of the camshaft 22 so as to face the protruding plate portion 24b.
The respective frames 24 are pressed downward by the springs 17a via the LED heads 13Y, 13M, 13C, and 13K. When the camshaft 22 is rotated, the eccentric cam 23 is rotated while pushing up the protruding plate portion 24b, resists the urging force of the spring 17a, and the eccentric amount of the eccentric cam 23 with each frame 24 serving as the fulcrum 24a. Only rotate clockwise.
[0018]
Since the LED heads 13Y, 13M, 13C, and 13K are attached to the upper cover 11a of the color image recording apparatus 11, the LED heads 13Y, 13M, 13C, and 13K are opened by opening the upper cover 11a. The image forming units 12Y, 12M, 12C, and 12K can be removed from the image forming units 12Y, 12M, 12C, and 12K, and the image forming units 12Y, 12M, 12C, and 12K can be attached and detached.
[0019]
The camshaft 22 is provided with a gear 25 via a one-way bearing 22a. The gear 25 is engaged with a motor gear 27 fixed to the rotating shaft of a motor 28 via a two-stage gear 26. Can be combined. On the other hand, a gear 16a is disposed at the end of the photosensitive drum 16, and the two-stage gear 26 and the gear 16a are selectively meshed with each other. The camshaft 22, the one-way bearing 22a, the eccentric cam 23, the gear 25, the two-stage gear 26, the motor gear 27, and the motor 28 constitute an image forming unit moving unit.
[0020]
Normally, the image forming units 12Y, 12M, 12C, and 12K are placed at an image forming position as shown in FIG. 3, and the two-stage gear 26 and the gear 16a are meshed at the image forming position. By driving the motor 28 in the forward direction, the photosensitive drum 16 can be rotated in the direction of arrow a at a constant speed. At this time, the gear 25 is rotated, but the camshaft 22 and the eccentric cam 23 do not rotate because the one-way bearing 22a idles. A spring 23a is disposed between the eccentric cam 23 and the main body of the color image recording apparatus 11, and the spring 23a biases the eccentric cam 23 so that the eccentric portion 23b is always directed in the direction of arrow e. .
[0021]
When the motor 28 is driven in the reverse direction, the one-way bearing 22a is locked, and the camshaft 22 and the eccentric cam 23 are rotated against the urging force of the spring 23a. At this time, as shown in FIG. 4, the image forming units 12Y, 12M, 12C, and 12K are rotated clockwise around the protrusions 24a and placed at the retracted position, and the two-stage gears are placed at the retracted position. 26 and the gear 16a are disengaged.
[0022]
A slit disk 29 is fixed to the camshaft 22, and a slit 29 a is formed in the slit disk 29. The position of the eccentric cam 23 can be known by detecting the slit 29a by the photosensor 30.
Further, as shown in FIGS. 3 and 4, window holes for making the LED heads 13 </ b> Y, 13 </ b> M, 13 </ b> C, 13 </ b> K face the respective photosensitive drums 16 are provided in the frames 24 of the respective image forming units 12 </ b> Y, 12 </ b> M, 12 </ b> C, 12 </ b> K. 13a is formed, and the LED heads 13Y, 13M, 13C, and 13K can be positioned with respect to the image forming portions 12Y, 12M, 12C, and 12K by the window holes 13a.
[0023]
The conveying belt 20 is made of a high-resistance semiconductive plastic film, is formed in a seamless endless shape, and is stretched between the driving roller 31, the driven roller 32, and the stretching roller 33. Note that the resistance value of the conveyor belt 20 is such that the static electricity remaining on the conveyor belt 20 when the recording medium 21 is attracted to the conveyor belt 20 by electrostatic force and the recording medium 21 is separated from the conveyor belt 20 is natural. The range is set such that the charge is eliminated.
[0024]
The drive roller 31 is connected to a belt running motor (not shown) and is rotated in the direction of arrow f by the belt running motor. The tension roller 33 is urged in the direction of arrow g by a spring (not shown) to apply tension to the conveyor belt 20.
The upper half 20a of the conveyor belt 20 is stretched through the transfer portions of the first to fourth printing mechanisms P1 to P4, and the lower half 20b of the conveyor belt 20 is formed of the tension roller 33 and the cleaning blade 34. It is stretched between the tip.
[0025]
The cleaning blade 34 is made of a flexible rubber material or plastic material, and scrapes off toner remaining on the surface of the conveying belt 20 into a waste toner tank 35.
A sheet feeding mechanism 36 is disposed on the lower right side of the color image recording apparatus 11 in FIG. 1, and the sheet feeding mechanism 36 includes a sheet storage cassette, a hopping mechanism, and a registration roller 45. And a recording medium storage box 37, a push-up plate 38, and a pressing means 39. The hopping mechanism includes a discriminating means 40, a spring 41 and a paper feed roller 42, and the discriminating means 40 is pressed against the paper feed roller 42 by a spring 41.
[0026]
In this case, the recording medium 21 accommodated in the recording medium accommodating box 37 is pressed against the sheet feeding roller 42 by the pressing means 39 via the push-up plate 38, and when the sheet feeding roller 42 is rotated in the direction of the arrow h, The paper is discriminated one by one by the discriminating means 40 and fed, guided by the guides 43 and 44, and sent to the registration roller 45.
Subsequently, the recording medium 21 is further guided by a medium guide 46 and sent between the suction roller 47 and the transport belt 20. The suction roller 47 is in pressure contact with the driven roller 32 via the transport belt 20, and charges the recording medium 21 sent from the paper feed mechanism 36 and attracts it to the transport belt 20 by electrostatic force. For this purpose, the suction roller 47 is formed of a high resistance semiconductive rubber material. The medium guide 46 is provided with a photo sensor (not shown) that detects the front end of the recording medium 21.
[0027]
Further, a static eliminator (not shown) is disposed so as to be opposed to the driving roller 31 through the conveyor belt 20. The static eliminator neutralizes the recording medium 21 that has been sucked and sent by the conveyance belt 20, releases the adsorption state, and facilitates separation from the conveyance belt 20. A photo sensor (not shown) for detecting the rear end of the recording medium 21 is disposed downstream of the static eliminator in the conveyance direction of the recording medium 21.
[0028]
In addition, on the downstream side of the static eliminator and the photosensor in the conveyance direction of the recording medium 21, the toner images of the respective colors transferred to the recording medium 21 are fixed in the respective transfer portions of the first to fourth printing mechanisms P1 to P4. For this purpose, a fixing device 48 is provided. The fixing device 48 includes a heat roller 49 that heats the toner on the recording medium 21, and a pressure roller 50 that presses the recording medium 21 toward the heat roller 49.
[0029]
The heat roller 49 is formed by coating an elastic body such as silicone rubber on a mandrel such as aluminum and coating the surface of the elastic body with a fluororesin for preventing offset. The pressure roller 50 is formed by coating an elastic body such as silicone rubber on a mandrel such as aluminum. A thermistor (not shown) is disposed so as to face the heat roller 49, the temperature of the heat roller 49 is detected by the thermistor, and a heater (not shown) in the heat roller 49 is controlled on / off based on the detected temperature. Can be done. The offset prevention liquid can be supplied to the surface of the heat roller 49 by an oil roller, an oil pad, or the like.
[0030]
Further, a discharge port 51 is disposed downstream of the fixing device 48 in the conveyance direction of the recording medium 21, and a discharge stacker (not shown) is disposed outside the discharge port 51. The recording medium 21 after printing is discharged to the discharge stacker through the discharge port 51.
Next, the operation of the color image recording apparatus 11 having the above configuration will be described.
[0031]
First, when a power supply (not shown) of the color image recording device 11 is turned on, a control device (not shown) of the color image recording device 11 performs a predetermined initial setting, and then warms up the heater in the heat roller 49 by energizing the heater. The heat roller 49 is set to a set temperature.
At this time, the temperature of the heat roller 49 is detected by a thermistor disposed so as to face the heat roller 49, and the heater is turned on / off in accordance with the detected temperature.
[0032]
When the heat roller 49 reaches a set temperature, a color image signal is transmitted from an external device (not shown), that is, a host computer, to the color image recording device 11, and the color image recording device 11 converts the color image signal into a yellow image signal. The magenta image signal, the cyan image signal, and the black image signal are decomposed, and the yellow image signal, the magenta image signal, the cyan image signal, and the black image signal are respectively stored in a memory (not shown).
[0033]
Here, when all of the yellow image signal, the magenta image signal, the cyan image signal, and the black image signal are obtained when the color image signal is decomposed, the toner of each color is obtained by the image forming units 12Y, 12M, 12C, and 12K. An image is formed. For this purpose, the control device rotates the motor 28 to place the image forming units 12Y, 12M, 12C, and 12K at the image forming position, and each of the photosensitive drums 16 and the transfer rollers 14Y, 14M, 14C, and 14K. Are brought into pressure contact with each other via the conveyor belt 20 and the conveyor belt 20 is caused to travel at substantially the same speed as the peripheral speed of the photosensitive drum 16 by the belt running motor. As a result, toner images of the respective colors are formed on the respective photosensitive drums 16, and the toner images are transferred onto the recording medium 21 in an overlapping manner.
[0034]
In addition, when any of the yellow image signal, magenta image signal, cyan image signal, and black image signal is not obtained when the color image signal is decomposed, a toner image of a corresponding color is not formed. Therefore, a predetermined image forming unit is placed at the retreat position, and a toner image is formed only by the other image forming units.
For example, when a yellow toner image is not formed, when the motor 28 of the first printing mechanism P1 is driven in the reverse direction, the one-way bearing 22a is locked and the camshaft 22 and the eccentric cam 23 are rotated. Then, the eccentric cam 23 pushes up the protruding plate portion 24b, and the image forming portion 12Y is rotated clockwise with the protruding portion 24a as a fulcrum and placed at the retracted position, and the meshing between the two-stage gear 26 and the gear 16a is performed. Canceled.
[0035]
Further, after the image forming portion 12Y is placed at the retracted position, when the eccentric portion 23b is located immediately above or slightly in front of the camshaft 22, the slit 29a is detected by the photosensor 30, and the motor 28 is stopped. And is excited by a motor holding means (not shown) of the control device and held at a stop position. Therefore, the eccentric cam 23 does not return to the original position by the urging force of the spring 23a, and the image forming portion 12Y is held at the retracted position.
[0036]
Next, when the image forming unit 12Y is placed at the image forming position in order to form a yellow toner image from this state, the motor 28 of the first printing mechanism P1 is driven in the forward direction. At this time, the one-way bearing 22 a idles and the rotation of the motor 28 is not transmitted to the eccentric cam 23.
As a result, the urging force of the spring 23a tries to rotate the camshaft 22 in the direction in which the one-way bearing 22a is locked, so that the eccentric cam 23 is gradually rotated in the opposite direction, that is, the original position, that is, The eccentric part 23b is stopped at a position facing the arrow e direction.
[0037]
At the same time, the image forming unit 12Y is rotated counterclockwise around the protrusion 24a by the urging force of the spring 17a via the LED head 13Y and placed at the image forming position. Then, the photosensitive drum 16 is brought into pressure contact with the conveying belt 20, and the two-stage gear 26 and the gear 16a are engaged with each other. As a result, a yellow toner image can be formed by the first printing mechanism P1. When the image forming units 12Y, 12M, 12C, and 12K are rotated counterclockwise, the frames 24 of the image forming units 12Y, 12M, 12C, and 12K are formed on the main body of the color image recording apparatus 11. When it hits a stopper (not shown), the rotation is stopped.
[0038]
In this way, by driving the motor 28 of the first printing mechanism P1 in the forward direction, the image forming unit 12Y can be placed at the image forming position to form a yellow toner image, and the motor 28 can be reversed. By driving in the direction, it is possible to place the image forming unit 12Y in the retracted position and not form a yellow toner image.
[0039]
Similarly, by driving the motors 28 of the second to fourth printing mechanisms P2 to P4 in the forward direction, the corresponding image forming units 12M, 12C, and 12K are placed at the image forming positions, and the motors 28 are turned on. By driving in the reverse direction, the corresponding image forming units 12M, 12C, and 12K can be placed at the retracted positions.
Therefore, when only the toner image of a predetermined color is formed, the photosensitive drum 16 of the image forming unit of the other color can be separated from the conveyance belt 20 and the recording medium 21, so that the photosensitive drum 16 and the conveyance belt 20 are Abrasion can be suppressed, and the life of the photosensitive drum 16 and the conveyor belt 20 can be extended. In addition, since the other color image forming units are not operated, the deterioration of the other color toners can be reduced, the life of the toner can be prolonged, and the image quality can be improved.
[0040]
Further, by driving the motor 28 in the forward direction, the image forming units 12Y, 12M, 12C, and 12K can be gradually moved from the retracted position to the image forming position, and thus the image forming units 12Y, 12M, and 12C. , 12K will not be shocked.
Note that when the drive of the motor 28 in the reverse direction is started, the photosensitive drum 16 is slightly rotated in the reverse direction, but the meshing between the two-stage gear 26 and the gear 16a is immediately released, so the photosensitive drum 16 Rotation in the opposite direction does not adversely affect the image forming units 12Y, 12M, 12C, and 12K.
[0041]
Next, a second embodiment of the present invention will be described.
FIG. 5 is a perspective view of the image forming unit placed at the image forming position in the second embodiment of the present invention. FIG. 6 is a perspective view of the image forming unit placed in the retracted position in the second embodiment of the present invention. It is a perspective view.
As shown in the figure, a protrusion 24a is formed at the upstream end of the frame 24 in the conveyance direction of the recording medium 21 (FIG. 1), and the protrusion 24a is formed on the main body of the color image recording apparatus 11. The guide groove is engaged with the guide groove so as not to rotate. In addition, a protruding plate portion 24 b is formed at the downstream end of the frame 24 in the conveyance direction of the recording medium 21.
[0042]
Further, a camshaft 22 is rotatably supported with respect to the main body of the color image recording apparatus 11 on the downstream side of the image forming units 12Y, 12M, 12C, and 12K in the conveyance direction of the recording medium 21. An eccentric cam 123 is fixed in the vicinity of both ends of the camshaft 22 so as to face the protruding plate portion 24b.
In the eccentric cam 123, a slight flat portion 123b as a position holding means is formed in the eccentric portion 123a in which the amount of eccentricity in the eccentric direction is maximized, and the projection plate portion as the eccentric cam 123 rotates. When the flat portion 123b reaches the lower surface 24c of 24b, the lower surface 24c and the flat portion 123b are matched, and the eccentric cam 123 is detented.
[0043]
The respective frames 24 are pressed downward by the springs 17a via the LED heads 13Y, 13M, 13C, and 13K. When the camshaft 22 is rotated, the eccentric cam 123 rotates and pushes up the protruding plate portion 24b, and the frame 24 resists the urging force of the spring 17a and the eccentric cam 123 is eccentric with the protrusion 24a as a fulcrum. It is rotated clockwise by the amount.
[0044]
The camshaft 22 is provided with a gear 25 via an electromagnetic clutch 122, and the gear 25 is engaged with a gear 127 via a two-stage gear 26. The gear 127 is disposed for each of the first to fourth printing mechanisms P1 to P4, but is connected to a rotation shaft of a common motor (not shown) via a gear train (not shown). In this case, each gear 25 of the first to fourth printing mechanisms P1 to P4 can be rotated only by driving one common motor.
[0045]
On the other hand, a gear 16a is disposed at the end of the photosensitive drum 16, and the two-stage gear 26 and the gear 16a are selectively meshed with each other. The electromagnetic clutch 122 transmits the rotation of the gear 25 to the camshaft 22 in the energized state, rotates the camshaft 22, and transmits power between the gear 25 and the camshaft 22 in the non-energized state. Is shut off, the gear 25 is idled, and the camshaft 22 is brought into a free state. The common motor, gear train, camshaft 22, gear 25, two-stage gear 26, electromagnetic clutch 122, eccentric cam 123, and gear 127 constitute an image forming unit moving unit.
[0046]
By the way, normally, the electromagnetic clutch 122 is placed in a non-energized state, and the eccentric cam 123 is stopped at an arbitrary position where the eccentric portion 123a does not push up the protruding plate portions 24b upward. As a result, the image forming units 12Y, 12M, 12C, and 12K are placed at the image forming position as shown in FIG. 5, and the two-stage gear 26 and the gear 16a are meshed at the image forming position.
[0047]
In this state, when the motor is driven, the gears 16a and 25 are rotated via the two-stage gear 26, but the rotation is transmitted to the camshaft 22 because the electromagnetic clutch 122 is in a non-energized state. Instead, only the photosensitive drum 16 is rotated in the direction of arrow a at a constant speed.
Therefore, when only the toner image of a predetermined color is formed, when the electromagnetic clutch 122 of the image forming portion of the color that does not form the toner image is energized, the rotation of the gear 25 is transmitted to the camshaft 22 and the eccentric cam 123. Is rotated to push the protruding plate portion 24b upward and release the meshing between the two-stage gear 26 and the gear 16a.
[0048]
And as shown in FIG. 6, the lower surface 24c and the flat part 123a correspond, and the said eccentric cam 123 is detented.
As a result, the color image forming portion that does not form a toner image is placed at the retracted position, and the meshing between the two-stage gear 26 and the gear 16a is released at the retracted position.
A slit disk 29 is fixed to the camshaft 22, and a slit 29 a is formed in the slit disk 29. The position of the eccentric cam 123 can be known by detecting the slit 29a by the photosensor 30.
[0049]
In the present embodiment, the slit 29a is set so as to be detected by the photosensor 30 in the vicinity of the position where the flat portion 123a and the lower surface 24c match.
Therefore, when the slit 29a reaches the vicinity of the position where the flat portion 123a and the lower surface 24c coincide with each other, the photosensor 30 detects the slit 29a and sends a detection signal to a control circuit (not shown) so that the electromagnetic clutch 122 is not energized Placed in. At this time, the flat portion 123a and the lower surface 24c match, and the eccentric cam 123 is detented.
[0050]
As a result, not only the state in which the protruding plate portion 24b of each frame 24 is pushed upward is maintained, but also the eccentric cam 123 is further rotated to rotate the image forming portions 12Y, 12M, 12C, and 12K counterclockwise. There is nothing to do.
In this way, the motor is driven to transmit the rotation to the gears 127 of the first to fourth printing mechanisms P1 to P4, and the electromagnetic clutches 122 are selectively energized and then placed in a non-energized state. Therefore, it can be placed at a predetermined retreat position.
[0051]
When the image forming units 12Y, 12M, 12C, and 12K are moved from the retracted position to the image forming position, the electromagnetic clutch 122 is kept in the energized state for a predetermined time while driving the motor, and the detent of the eccentric cam 123 is increased. When the camshaft 22 is rotated to the released position, the eccentric cam 123 is rotated by the biasing force of the spring 17a. As a result, the image forming units 12Y, 12M, 12C, and 12K are rotated counterclockwise and placed at the image forming position.
[0052]
As described above, since the eccentric cam 123 can be rotated by placing the electromagnetic clutch 122 of the color image forming portion that does not form a toner image in the energized state, it is common to the image forming portions 12Y, 12M, 12C, and 12K. Only one motor is required, and the cost of the color image recording apparatus 11 can be reduced. Further, since it is not necessary to switch the motor between the forward direction and the reverse direction and drive it, the control becomes easy.
[0053]
And since the flat part 123a is formed in the eccentric cam 123, it is not necessary to keep the electromagnetic clutch 122 in an energized state in order to hold the image forming parts 12Y, 12M, 12C and 12K in the retracted position. Therefore, not only can the power consumption of the electromagnetic clutch 122 be reduced, but also the heat generated by the electromagnetic clutch 122 can be reduced.
[0054]
Next, a third embodiment of the present invention will be described.
FIG. 7 is a perspective view of the image forming unit placed at the image forming position according to the third embodiment of the present invention. FIG. 8 is a perspective view of the image forming unit placed at the retracted position according to the third embodiment of the present invention. It is a perspective view.
As shown in the figure, a protrusion 24a is formed at the upstream end of the frame 24 in the conveyance direction of the recording medium 21 (FIG. 1), and the protrusion 24a is formed on the main body of the color image recording apparatus 11. The guide groove is engaged with the guide groove so as not to rotate. A tooth profile 24f is formed at the downstream end of the frame 24 in the conveyance direction of the recording medium 21 on the circumference centered on the protrusion 24a or on the tangent line of the circle centered on the protrusion 24a. The
[0055]
Further, a gear shaft 60 is rotatably supported with respect to the main body of the color image recording apparatus 11 on the downstream side of the image forming units 12Y, 12M, 12C, and 12K in the conveyance direction of the recording medium 21, In the vicinity of both ends of the gear shaft 60, a gear 61 having a tooth profile 61a formed over substantially a quarter of the circumference is fixed. In addition, an interlocking mechanism is comprised by each said tooth profile 24f and 61a.
[0056]
In addition, the outer diameter of almost three quarters of the gear 61 where the tooth profile 61a is not formed is made smaller than the valley diameter of the tooth profile 61a.
The frame 24 is pressed downward by the spring 17a via the LED heads 13Y, 13M, 13C, and 13K. When the gear shaft 60 is rotated in the direction of the arrow i, the tooth forms 61a and 24f mesh with each other, resist the urging force of the spring 17a, and the image forming portions 12Y, 12M, 12C, and 12K use the protrusion 24a as a fulcrum. Thus, it is rotated clockwise by the tooth profile 61a.
[0057]
In order to rotate the gear shaft 60 in the direction of arrow i, a gear 25 is disposed on the gear shaft 60 via a one-way bearing 22a. The gear 25 includes gears 65a and 65b and a two-stage gear 26. And is engaged with a motor gear 27 fixed to the rotation shaft of the motor 28. On the other hand, a gear 16a is disposed at the end of the photosensitive drum 16, and the two-stage gear 26 and the gear 16a are selectively meshed with each other. The gears 25, 61, 65a, 65b, the two-stage gear 26, the motor gear 27, the motor 28, and the gear shaft 60 constitute an image forming unit moving unit.
[0058]
The one-way bearing 22a rotates the gear shaft 60 in the same direction when the gear 25 is rotated in the arrow i direction, but does not transmit the rotation to the gear shaft 60 when the gear 25 is rotated in the direction opposite to the arrow i direction. . In this case, the gear shaft 60 can be freely rotated in the direction of the arrow i with the gear 25 fixed, but once the gear shaft 60 is rotated in the direction of the arrow i, the motor 28 is driven in the positive direction. Otherwise, the gear shaft 60 cannot be returned to the original position.
[0059]
The LED heads 13Y, 13M, 13C, and 13K are attached to the upper cover 11a of the color image recording apparatus 11. Therefore, the upper cover 11a is opened even when the tooth forms 61a and 24f are engaged with each other. Thus, the LED heads 13Y, 13M, 13C, and 13K can be removed from the image forming units 12Y, 12M, 12C, and 12K, and the image forming units 12Y, 12M, 12C, and 12K can be attached and detached.
[0060]
Also, in the vicinity of the portion of the gear 61 where the tooth profile 61a is formed, one end of a biasing member 63 for constantly biasing the portion where the tooth profile 61a is formed is connected. The other end of the biasing member 63 is connected to the main body of the color image recording apparatus 11. Then, the tooth profile 61a is rotated in the direction opposite to the direction of the arrow i, and the tooth profile 61a is further rotated in the direction opposite to the direction of the arrow i at a position where the meshing is released from the lowermost end portion of the tooth profile 24f. In order to regulate, a regulating arm portion 67 is formed on the gear 61, and a regulating member 64 is formed on the main body of the color image recording apparatus 11.
[0061]
The gear 25 is meshed with the gear 16 a of the photosensitive drum 16 through gears 65 a and 65 b and a two-stage gear 26 that are rotatably arranged with respect to the main body of the color image recording apparatus 11. Therefore, when the photosensitive drum 16 is rotated in the direction of arrow a, that is, when a toner image is formed, the gear 25 is rotated in the direction opposite to the direction of arrow i. As a result, the one-way bearing 22a is idled and the gear shaft 60 is in a free state, so that the restricting arm portion 67 is locked to the restricting member 64 by the urging force of the urging member 63.
[0062]
On the other hand, when the toner image is not formed, if the gear 25 is rotated in the direction of arrow i, the gear 61 is rotated in the direction of arrow i, and the image forming portions 12Y, 12M, 12C, and 12K rotate clockwise with the protrusion 24a as a fulcrum. To be rotated.
A slit disk 29 is fixed to the gear shaft 60, and a slit 29a is formed in the slit disk 29. Then, the position of the tooth profile 61a can be known by detecting the slit 29a by the photosensor 30. In the present embodiment, the photo sensor 30 detects the slit 29a at a position immediately after the gear 61 is rotated in the direction of the arrow i and the meshing of the tooth forms 61a and 24f is released.
[0063]
When the engagement of the tooth forms 61a and 24f is released, the restricting arm portion 67 abuts on the lowermost end part of the tooth form 24f as a position holding unit, and image formation is performed even if the engagement of the tooth forms 61a and 24f is released. The parts 12Y, 12M, 12C, and 12K are maintained at the retracted positions. Therefore, the image forming units 12Y, 12M, 12C, and 12K do not return to the image forming position unless the gear 25 is rotated in the direction opposite to the arrow i direction.
[0064]
In the color image recording apparatus 11 having the above-described configuration, when a toner image is formed by all the image forming units 12Y, 12M, 12C, and 12K, the motor 28 is driven so that the photosensitive drum 16 rotates in the direction of arrow a. The bearing 22 a is idled and the restriction arm 67 is locked to the restriction member 64 by the urging force of the urging member 63.
[0065]
On the other hand, when only a toner image of a predetermined color is formed, when the motor 28 of the corresponding image forming unit is driven by a control device (not shown) to rotate the gear 25 in the direction of arrow i, the tooth profile 61a is moved in the direction of arrow i. Rotated in the reverse direction to mesh with the tooth profile 24f, the image forming portion is rotated clockwise around the protrusion 24a against the urging force of the spring 17a.
[0066]
At this time, the photosensitive drum 16 is slightly rotated in the reverse direction. However, since the meshing between the two-stage gear 26 and the gear 16a is released, the reverse rotation of the photosensitive drum 16 adversely affects the image forming unit. Never give.
At the same time, the contact between the photosensitive drum 16 and the conveyor belt 20 is also released, so that the photosensitive drum 16 and the conveyor belt 20 can be prevented from being worn.
[0067]
Then, after the gear 61 is rotated in the direction of arrow i and the engagement of the tooth forms 61a and 24f is released, the restricting arm portion 67 and the restricting member 64 are engaged to maintain the retracted position of the image forming portion. The Therefore, the image forming unit does not return to the image forming position unless the gear 61 is rotated in the direction opposite to the arrow i direction. Next, when the slit 29a is detected by the photosensor 30 at a position immediately after the engagement between the tooth profile 61a and the tooth profile 24f is released, the motor 28 is stopped by motor stop means of a control device (not shown).
[0068]
When the motor 28 is driven in the reverse direction, the gear 61 is rotated in the direction opposite to the arrow i direction, and the image forming unit can be placed at the image forming position. At this time, the gear 61 is rotated in the direction opposite to the arrow i direction by the urging force of the urging member 63 and returns to the position where the restricting arm portion 67 and the restricting member 64 are locked.
Further, while the image forming units 12Y, 12M, 12C, and 12K are moved from the image forming position to the retracted position or while being moved from the retracted position to the image forming position, image formation is performed with the tooth profile 61a and the tooth profile 24f engaged. Even when the portions 12Y, 12M, 12C, and 12K are pulled upward and removed from the color image recording apparatus 11, the one-way bearing 22a is idled and the gear 61 is rotated to a position where the photosensor 30 detects the slit 29a. Since the image forming units 12Y, 12M, 12C, and 12K are set again in the color image recording apparatus 11, the image forming units 12Y, 12M, 12C, and 12K are placed at the retracted positions. Accordingly, the image forming units 12Y, 12M, 12C, and 12K are not erroneously set, and the conveyance belt 20 and the photosensitive drum 16 can be prevented from being damaged.
[0069]
Next, a fourth embodiment of the present invention will be described.
FIG. 9 is a perspective view of the image forming unit placed at the image forming position in the fourth embodiment of the present invention. In addition, about the thing which has the same structure as 1st Embodiment, the description is abbreviate | omitted by providing the same code | symbol.
In this case, a gear 25 is disposed at one end of the camshaft 22 via a one-way bearing 22a, and the gear 25 and the gear 70 are meshed with each other and fixed to the rotation shaft of the gear 70 and the motor 28. The motor gear 27 is meshed. The gear 70 is meshed with the large gear 26 a of the two-stage gear 26, and the small gear 26 b of the two-stage gear 26 and the gear 16 a of the photosensitive drum 16 are meshed via the gear 71. The camshaft 22, the one-way bearing 22a, the eccentric cam 23, the gears 25 and 70, the motor gear 27 and the motor 28 constitute an image forming unit moving means, and the gears 16a, 70 and 71 and the two-stage gear 26 form a gear train. Composed.
[0070]
The one-way bearing 22 a rotates idly when the gear 25 is rotated in the direction of arrow s, and does not transmit the rotation of the gear 25 to the camshaft 22. Conversely, the one-way bearing 22a locks when the gear 25 is rotated in the direction of the arrow t, transmits the rotation of the gear 25 to the camshaft 22, and rotates the eccentric cam 23 in the direction of the arrow t. Then, when the gear 25 is rotated in the arrow s direction, the photosensitive drum 16 is rotated in the arrow a direction.
[0071]
The gear 16a is engaged with the gears of the charging roller 17 and the developing roller 19, and when the photosensitive drum 16 is rotated, the charging roller 17 and the developing roller 19 are rotated.
Next, the operation of the color image recording apparatus 11 (FIG. 1) configured as described above will be described.
First, when the motor 28 is driven in the reverse direction and the gear 25 is rotated in the arrow t direction, the one-way bearing 22a is locked, and the camshaft 22 and the eccentric cam 23 are rotated in the arrow t direction. Accordingly, the eccentric cam 23 lifts the protruding plate portion 24b of the frame 24, and rotates the image forming portions 12Y, 12M, 12C, and 12K clockwise with the protrusion 24a as a fulcrum to place it in the retracted position.
[0072]
At this time, the photosensitive drum 16 is slightly rotated in the opposite direction as the gear 25 is rotated in the direction of the arrow t. However, since the speed is reduced by the two-stage gear 26, the rotation amount is reduced. Therefore, it is possible to further suppress the wear of the photosensitive drum 16 and the conveyance belt 20.
Next, when the motor 28 is driven in the forward direction and the gear 25 is rotated in the direction of the arrow s, the one-way bearing 22a is idled. Then, the image forming units 12Y, 12M, 12C, and 12K are rotated counterclockwise with the protrusion 24a as a fulcrum and placed at the image forming position.
[0073]
Next, a fifth embodiment of the present invention will be described.
FIG. 10 is a perspective view of an image forming unit according to the fifth embodiment of the present invention, and FIG. 11 is a state diagram of the gears of the photosensitive drum according to the fifth embodiment of the present invention. In addition, about the thing which has the same structure as 1st Embodiment, the description is abbreviate | omitted by providing the same code | symbol.
[0074]
In the figure, reference numeral 70 denotes a gear rotatably disposed with respect to the main body of the color image recording apparatus 11 (FIG. 1). The gear 70 is meshed with the gear 16a of the photosensitive drum 16, and a gear 71. Is engaged with the small gear 26b of the two-stage gear 26. The large gear 26 a of the two-stage gear 26 is meshed with a motor gear 27 fixed to the rotating shaft of the motor 28. Therefore, the photosensitive drum 16 can be rotated in the direction of arrow a by driving the motor 28 in the forward direction. The gears 16a, 25, 70, 71, the one-way bearing 22a, the two-stage gear 26, the motor gear 27, and the motor 28 constitute an image forming unit moving unit.
[0075]
The gear 25 is rotatably supported with respect to the frame 24 via the one-way bearing 22a, and meshes with the gear 16a. In this case, when the photosensitive drum 16 rotates in the direction of the arrow a, the gear 25 idles in the direction of the arrow s. When the photosensitive drum 16 tries to rotate in the direction opposite to the direction of the arrow a, the one-way bearing 22a is locked and the gear is rotated. 25 does not rotate in the direction of arrow t.
[0076]
When the motor 28 is driven in the reverse direction and the gear 70 is rotated in the direction of the arrow u shown in FIG. 11, the photosensitive drum 16 does not rotate because the one-way bearing 22a is locked. Accordingly, the photosensitive drum 16 is rotated in the direction of the arrow r by the height of the teeth of the gear 70. Accordingly, the image forming units 12Y, 12M, 12C, and 12K resist the urging force of the spring 17a. The projection 24a is rotated clockwise around the fulcrum and placed in the retracted position. The gear 16a constitutes a first gear, the gear 25 constitutes a second gear, and the gear 70 constitutes a third gear.
[0077]
When the photosensor 91 fixed to the main body of the color image recording apparatus 11 detects the protrusion 24g formed on the frame 24 of each of the image forming units 12Y, 12M, 12C, and 12K, the motor 28 is stopped. At this position, the tooth tip of the gear 70 contacts the tooth tip of the gear 16a.
Reference numeral 92 denotes a stopper formed at a predetermined position of the color image recording apparatus 11, and the stopper 92 is configured so that the image forming portions 12Y, 12M, 12C, and 12K are rotated counterclockwise so that a part of the frame 24 is rotated. Stops rotation when it hits.
[0078]
In contrast, when the motor 28 is driven in the forward direction when the image forming units 12Y, 12M, 12C, and 12K are placed at the retracted positions, the tooth tips of the gear 70 and the tooth tips of the gear 16a come into contact with each other. , Start meshing. When the motor 28 is further driven in the forward direction, the gear 25 is rotated in the arrow s direction, so that the photosensitive drum 16 is rotated in the arrow a direction. Therefore, the image forming units 12Y, 12M, 12C, and 12K are rotated counterclockwise around the protrusion 24a by the urging force of the spring 17a and placed at the image forming position.
[0079]
Thereafter, the photosensitive drum 16 continues to rotate in the direction of the arrow a while the one-way bearing 22a is idled.
Incidentally, in each of the above-described embodiments, the fixing device 48 is provided for fixing the toner images of the respective colors transferred to the recording medium 21 in the transfer portions of the first to fourth printing mechanisms P1 to P4. . However, when a color image is formed in the color image recording apparatus 11, the toner images of yellow, magenta, cyan, and black are transferred in an overlapping manner, so that the toner layer has a maximum of four layers. When the number of toner layers increases, the toner of each color cannot be sufficiently melted, and the image quality is deteriorated.
[0080]
In addition, when fixing a toner image transferred onto an OHP (overhead projector) sheet, if the toner of each color is not sufficiently melted, the surface of the fixed color toner image is uneven, and transmitted light is transmitted. Diffuse reflection causes insufficient projection. Therefore, in order to sufficiently project the transmitted light, it is necessary to supply a sufficient amount of heat to the heat roller 49 (FIG. 2). In order to increase the amount of heat supplied to the heat roller 49, power consumption is reduced. Not only a large heater is required, but also the time until the temperature of the heat roller 49 reaches the set temperature becomes long, and the color image recording apparatus 11 cannot be used immediately after the power supply (not shown) is turned on.
[0081]
Further, in the dandem type color image recording apparatus 11 as in each of the embodiments described above, the recording speed is determined by the fixing speed in the fixing device 48 when forming a color image or a monochrome image. Therefore, the recording speed when forming a monochrome image cannot be increased.
Therefore, the image quality can be improved, the transmitted light can be projected sufficiently when an image is formed on the OHP sheet, and the recording speed when forming a monochrome image can be increased. The sixth embodiment of the present invention will be described.
[0082]
FIG. 12 is a perspective view of an image forming unit according to the sixth embodiment of the present invention. In addition, about the thing which has the same structure as 4th Embodiment, the description is abbreviate | omitted by providing the same code | symbol.
In this case, when all of the yellow image signal, the magenta image signal, the cyan image signal, and the black image signal are obtained when the color image signal is decomposed, the image forming units 12Y, 12M, 12C, and 12K (see FIG. 1 and FIG. 1). According to 2), a toner image of each color is formed. Then, the image forming units 12Y, 12M, 12C, and 12K are placed at the image forming positions, the photosensitive drum 16 and the transfer rollers 14Y, 14M, 14C, and 14K are brought into pressure contact with each other via the conveyance belt 20, and the motor 28 is rotated. At the same time, when the conveying belt 20 is driven at a speed substantially equal to the peripheral speed of the photosensitive drum 16 by a belt driving motor (not shown), the toner image on each photosensitive drum 16 can be transferred to the recording medium 21. The camshaft 22, the one-way bearing 22a, the eccentric cam 23, the gears 25 and 70, the motor gear 27, and the motor 28 constitute an image forming unit moving unit.
[0083]
In addition, when any one of the yellow image signal, the magenta image signal, the cyan image signal, and the black image signal cannot be obtained when the color image signal is decomposed, the corresponding color toner image is not formed. For this purpose, an image forming unit of a predetermined color is placed at the retracted position, and a toner image is formed only by the image forming units of other colors. By the way, when forming a monochrome image, the toner layer is one layer, and the burden on the fixing device 48 is very small, but red (mixed color of yellow and magenta), green (mixed color of yellow and cyan) or blue (mixed color). When a color image (mixed color of magenta and cyan) is formed, two image forming portions are used and two toner layers are used.
[0084]
Further, when a color image is formed with three colors of yellow, magenta, and cyan, the toner layer becomes three layers, and when black is added in addition to yellow, magenta, and cyan, the toner layer becomes four layers.
When the recording medium 21 is paper, the set temperature and fixing speed of the fixing device 48 capable of completely fixing a color toner image composed of four toner layers are 150 [° C.], respectively. 4 [PPM (number of pages per minute)], the fixing speed of the fixing device 48 capable of completely fixing a color toner image at a set temperature of 150 [° C.] is three toner layers. 5 [PPM] for a toner image composed of the toner, 6 [PPM] for a toner image composed of two toner layers, and 8 [PPM] for a toner image composed of one toner layer. Become. Therefore, the smaller the toner layer, the higher the recording speed.
[0085]
Therefore, when the recording medium 21 is paper and the fixing device 48 is maintained at the set temperature to form a monochrome image, the control device 94 drives the motors 28 of the image forming units 12Y, 12M, and 12C in the reverse direction. Then, the gear 25 is rotated in the arrow t direction. At this time, the one-way bearing 22a is locked, and the camshaft 22 and the eccentric cam 23 are rotated in the direction of the arrow t. Therefore, the eccentric cam 23 lifts the protruding plate portion 24b of the frame 24, and rotates the image forming portions 12Y, 12M, and 12C clockwise with the protruding portion 24a as a fulcrum to place it in the retracted position.
[0086]
On the other hand, when the control device 94 drives the motor 28 of the image forming unit 12K in the forward direction and rotates the gear 25 in the arrow s direction, the one-way bearing 22a rotates idly. Then, the image forming unit 12K is rotated counterclockwise with the protrusion 24a as a fulcrum, and is placed at the image forming position.
The control device 94 includes 8 [PPM] of the photosensitive drum 16, the charging roller 17 and the developing roller 19, and the transfer roller 14K, the driving roller 31, the registration roller 45, and the heat roller 49 in the image forming unit 12K. Rotate at a recording speed equivalent to.
[0087]
For this purpose, the recording speed changing means (not shown) of the control device 94 determines the number of toner layers, that is, the number of image forming portions placed at the image forming position based on the color image signal, and Change the recording speed according to the number.
When the recording medium 21 is paper and the fixing device 48 is maintained at the set temperature to form a color image composed of two toner layers, the control device 94 forms two predetermined image forming portions into an image forming unit. The photosensitive drum 16, the charging roller 17 and the developing roller 19, and the transfer roller, the driving roller 31, the registration roller 45, and the heat roller 49 in the image forming unit are all at a recording speed corresponding to 6 [PPM]. Rotate with.
[0088]
When the recording medium 21 is paper and the fixing device 48 is maintained at the set temperature to form a color image composed of three toner layers, the control device 94 forms the predetermined three image forming units. The photosensitive drum 16, the charging roller 17 and the developing roller 19, and the transfer roller, the driving roller 31, the registration roller 45, and the heat roller 49 in the image forming unit are all at a recording speed corresponding to 5 [PPM]. Rotate with.
[0089]
Further, when the recording medium 21 is paper, and the fixing device 48 is maintained at the set temperature to form a color image composed of four toner layers, the control device 94 forms predetermined four image forming units into an image forming unit. The photosensitive drum 16, the charging roller 17 and the developing roller 19, and the transfer roller, the driving roller 31, the registration roller 45, and the heat roller 49 in the image forming unit are all at a recording speed corresponding to 4 [PPM]. Rotate with.
[0090]
As described above, since the recording speed is changed in accordance with the number of image forming portions placed at the image forming position, the toner can be sufficiently melted and the image quality can be improved. In addition, the recording speed when forming a monochrome image can be increased.
When the recording medium 21 is an OHP sheet, the control device 94 sets the set temperature of the fixing device 48 higher by about 15 [° C.].
[0091]
Therefore, since the toner can be sufficiently melted, the transmitted light can be sufficiently projected when an image is formed on the OHP sheet. In this case, whether or not the recording medium 21 is an OHP sheet is detected by a photosensor (not shown) disposed on the medium guide 46.
By the way, in each of the embodiments described above, the image forming units 12Y, 12M, and 12C are rotated clockwise around the protrusions 24a by driving the motor 28 in the reverse direction with the conveying belt 20 stopped. The photosensitive drum 16 is slightly rotated in the reverse direction by driving the motor 28 in the reverse direction. At this time, a slight sliding contact occurs between each photosensitive drum 16 and the conveyor belt 20, and therefore, when the image forming units 12Y, 12M, and 12C are repeatedly placed from the image forming position to the retracted position, the surface of the photosensitive drum 16 is recovered. Will wear out.
[0092]
In each of the above embodiments, when the color image recording apparatus 11 is used for a long time, the toner adheres to the abdomen at the tip of the cleaning blade 34, and the toner rubs against the surface of the conveyance belt 20 as the conveyance belt 20 travels. (Rubbing) and generating noise (squeal).
Therefore, even if the image forming units 12Y, 12M, and 12C are repeatedly placed from the image forming position to the retracted position, the surface of the photosensitive drum 16 is not worn, and even if the color image recording apparatus 11 is used for a long time, it is conveyed. A seventh embodiment of the present invention in which noise is not generated as the belt 20 travels will be described.
[0093]
FIG. 13 is a first schematic diagram of a color image recording apparatus according to the seventh embodiment of the present invention, and FIG. 14 is a second schematic diagram of the color image recording apparatus according to the seventh embodiment of the present invention. In addition, about the thing which has the same structure as 1st Embodiment, the description is abbreviate | omitted by providing the same code | symbol. In the seventh embodiment, since the image forming units 12Y, 12M, 12C, and 12K have the same structure as that of the fourth embodiment, the detailed description thereof is omitted by using FIG. To do.
[0094]
In this case, a belt running motor (not shown) as a driving means can be rotated in the forward direction and the reverse direction, and the belt running motor is driven in the forward direction in the first drive mode. The driving roller 31 can be rotated in the direction of the arrow f1 by the rotation of the driving belt 31 and the conveyor belt 20 can be driven in the direction of the arrow j1. In the second driving mode, the driving roller 31 is driven in the reverse direction by driving the belt driving motor. The conveyor belt 20 can be run in the direction of the arrow j2 by rotating in the direction of the arrow f2.
[0095]
In the color image recording apparatus 11 configured as described above, the image forming units 12Y, 12M, 12C, and 12K are always placed in the retracted position when the power (not shown) is turned on and when the recording operation is finished.
That is, when the power is turned on, the image forming portion that is placed at the image forming position and the photosensor 30 does not detect the slit 29a is rotated clockwise around the protrusion 24a to the retracted position. Placed.
[0096]
For this purpose, the photosensor 30 drives only the motor 28 of the image forming unit that has not detected the slit 29a in the reverse direction, and rotates the gear 25 in the arrow t direction. At this time, the one-way bearing 22a is locked, and the camshaft 22 and the eccentric cam 23 are rotated in the direction of the arrow t. Therefore, the eccentric cam 23 lifts the protruding plate portion 24b of the frame 24, and rotates the image forming portions 12Y, 12M, and 12C clockwise with the protruding portion 24a as a fulcrum to place it in the retracted position. The motor 28 is stopped by being rotated to a position where the photosensor 30 detects the slit 29a.
[0097]
Here, when the gear 25 rotates in the direction of the arrow t, the photosensitive drum 16 is rotated in the direction opposite to the direction of the arrow a. However, since the speed is reduced by the two-stage gear 26, the rotation amount of the photosensitive drum 16 is Few.
Then, while the image forming units 12Y, 12M, 12C, and 12K are placed at the retracted position from the image forming position, the belt driving motor is driven in the reverse direction to rotate the driving roller 31 in the direction of the arrow f2, thereby conveying the belt. The belt 20 is run in the direction of the arrow j2. In this case, the traveling speed of the transport belt 20 is equal to that when the transport belt 20 is traveled in the arrow j1 direction.
[0098]
Therefore, it is possible to prevent sliding contact between each photosensitive drum 16 and the conveyor belt 20, so that the image forming units 12Y, 12M, 12C, and 12K can be repeatedly placed from the image forming position to the retracted position. The surface of the photosensitive drum 16 is not worn.
At this time, the toner 80 adhering to the abdomen of the tip of the cleaning blade 34 is returned to the surface of the conveyor belt 20 as it travels in the direction of the arrow j2 of the conveyor belt 20. Therefore, the toner 80 adhering to the abdomen at the tip of the cleaning blade 34 is not rubbed by the surface of the conveying belt 20, so that noise can be prevented from being generated. The toner 81 returned to the surface of the conveyor belt 20 is scraped off to the waste toner tank 35 by the cleaning blade 34 when the conveyor belt 20 is moved in the arrow j1 direction in the next recording operation.
[0099]
Further, a turning phenomenon may occur at the tip of the cleaning blade 34 for some reason during the recording operation, but the turning phenomenon can be eliminated by running the transport belt 20 in the direction of the arrow j2.
Next, in the recording operation, for example, when the yellow image signal, the magenta image signal, the cyan image signal, and the black image signal are obtained when the color image signal is decomposed, the image forming units 12Y, 12M, 12C, and 12K It is placed at the image forming position. For this purpose, the motors 28 of the image forming units 12Y, 12M, 12C, and 12K are driven in the forward direction, and the gear 25 is rotated in the arrow s direction. At this time, the one-way bearing 22 a idles and the rotation of the motor 28 is not transmitted to the eccentric cam 23.
[0100]
The motor 28 is stopped by being rotated to a position where the photosensor 30 detects the slit 29a. At the same time, the image forming units 12Y, 12M, 12C, and 12K are rotated counterclockwise around the protrusion 24a and placed at the image forming position. Then, the photosensitive drum 16 is brought into pressure contact with the conveying belt 20, and the two-stage gear 26 and the gear 16a are engaged with each other. As a result, yellow, magenta, cyan, and black toner images can be formed by the third and fourth printing mechanisms P3 and P4.
[0101]
Further, while the image forming units 12Y, 12M, 12C, and 12K are placed from the retracted position to the image forming position, the belt driving motor is driven in the forward direction to rotate the driving roller 31 in the direction of the arrow f1, thereby conveying the belt. The belt 20 is caused to travel in the arrow j1 direction. In this case, the traveling speed of the conveyor belt 20 is made equal to the peripheral speed of the photosensitive drum 16.
[0102]
From this state, printing is performed on the recording medium 21 accommodated in the paper feed mechanism 36.
When the recording operation is completed, the image forming unit in which the photosensor 30 does not detect the slit 29a is rotated clockwise around the protrusion 24a and placed in the retracted position.
[0103]
Further, while the image forming unit is placed from the image forming position to the retracted position, the belt running motor is driven in the reverse direction, the drive roller 31 is rotated in the arrow f2 direction, and the conveying belt 20 is moved in the arrow j2 direction. It is made to run.
In each of the above embodiments, the LED heads 13Y, 13M, 13C, and 13K are used as means for exposing the surface of the photosensitive drum 16, but a laser (not shown) is used instead of the LED heads 13Y, 13M, 13C, and 13K. A liquid crystal shutter or the like can also be used.
[0104]
In addition, this invention is not limited to the said embodiment, It can change variously based on the meaning of this invention, and does not exclude them from the scope of the present invention.
[0105]
【The invention's effect】
As described above in detail, according to the present invention, in the color image recording apparatus, the endless conveyance belt that conveys the recording medium as the vehicle travels is disposed opposite to the conveyance belt. A plurality of image forming units that form toner images on the photoconductive drum when placed at the image forming position, and the photoconductive drums, with the conveying belt interposed therebetween. An image forming unit that includes a transfer unit provided and a motor for each of the image forming units, and selectively puts the image forming units at a retracted position and an image forming position by switching the driving direction of the motors. Part moving means, position holding means for holding each image forming part in the retracted position by driving each motor, and operation of the position holding means in accordance with the withdrawal of each image forming part So it has an interlocking mechanism for placing the image forming unit to the retracted position, said actuated position holding means, and a motor stopping means for the stopping the motors in a state of placing the respective image forming portions to the retracted position.
[0106]
In this case, each image forming unit can be selectively placed at the retracted position and the image forming position by the image forming unit moving means. Therefore, when only the toner image of a predetermined color is formed, the color of the toner image that is not formed The photosensitive drum of the image forming unit can be separated from the conveyance belt and the recording medium. Therefore, it is possible to suppress wear of the photosensitive drum and the conveyor belt, and it is possible to extend the life of the photosensitive drum and the conveyor belt. Further, the image quality can be improved.
[Brief description of the drawings]
FIG. 1 is a first schematic diagram of a color image recording apparatus according to a first embodiment of the present invention.
FIG. 2 is a second schematic diagram of the color image recording apparatus according to the first embodiment of the present invention.
FIG. 3 is a perspective view of an image forming unit placed at an image forming position according to the first embodiment of the present invention.
FIG. 4 is a perspective view of an image forming unit placed at a retracted position in the first embodiment of the invention.
FIG. 5 is a perspective view of an image forming unit placed at an image forming position according to a second embodiment of the present invention.
FIG. 6 is a perspective view of an image forming unit placed at a retracted position according to a second embodiment of the present invention.
FIG. 7 is a perspective view of an image forming unit placed at an image forming position according to a third embodiment of the present invention.
FIG. 8 is a perspective view of an image forming unit placed in a retracted position according to a third embodiment of the present invention.
FIG. 9 is a perspective view of an image forming unit placed at an image forming position according to a fourth embodiment of the present invention.
FIG. 10 is a perspective view of an image forming unit according to a fifth embodiment of the present invention.
FIG. 11 is a state diagram of a gear of a photosensitive drum according to a fifth embodiment of the present invention.
FIG. 12 is a perspective view of an image forming unit according to a sixth embodiment of the present invention.
FIG. 13 is a first schematic diagram of a color image recording apparatus according to a seventh embodiment of the invention.
FIG. 14 is a second schematic diagram of a color image recording apparatus according to a seventh embodiment of the invention.
[Explanation of symbols]
11 Color image recording device
12Y, 12M, 12C, 12K Image forming unit
14Y, 14M, 14C, 14K transfer rollers
16 Photosensitive drum
16a, 25, 61, 65a, 65b, 70, 71, 127 Gear
20 Conveyor belt
21 Recording media
22 Camshaft
22a one-way bearing
23 Eccentric cam
24 frames
24f, 61a Tooth profile
26 Two-stage gear
27 Motor gear
28 Motor
34 Cleaning blade
60 Gear shaft
64 Restriction member
80, 81 toner
94 Controller
122 electromagnetic clutch
123 Eccentric cam
123b Flat part

Claims (2)

(A) an endless conveyance belt that conveys the recording medium as it travels;
(B) a plurality of image forming units that are disposed to face the conveyor belt, take a retracted position and an image forming position, and form a toner image on the photosensitive drum when placed at the image forming position;
(C) transfer means disposed to face each of the photosensitive drums with the conveyance belt interposed therebetween;
(D) an image forming unit moving unit that includes a motor for each of the image forming units, and selectively puts the image forming units at a retracted position and an image forming position by switching a driving direction of the motors; ,
A position holding means that holds the retracted position the respective image forming portions by (e) for driving the respective motors,
(F) an interlocking mechanism that activates the position holding unit as the image forming units are pulled out to place the image forming units in a retracted position ;
(G) A color image recording apparatus comprising: a motor stop unit that operates the position holding unit to stop the motors in a state where the image forming units are in the retracted positions . (A) an endless conveyance belt that conveys the recording medium as it travels;
(B) a plurality of image forming units that are disposed to face the conveyor belt, take a retracted position and an image forming position, and form a toner image on the photosensitive drum when placed at the image forming position;
(C) transfer means disposed to face each of the photosensitive drums with the conveyance belt interposed therebetween;
(D) an image forming unit moving unit that includes a motor for each of the image forming units, and selectively puts the image forming units at a retracted position and an image forming position by switching a driving direction of the motors; ,
(E) a first gear disposed on each of the photosensitive drums for rotating each of the photosensitive drums;
(F) The color image recording apparatus is rotatably disposed with respect to the main body of the color image recording apparatus so as to face the frame of each image forming unit, meshes with the first gear, and drives the motors in the forward direction. A second gear that idles sometimes and is fixed without being rotated when the motors are driven in opposite directions;
(G) The color image recording apparatus is rotatably disposed with respect to the main body of the color image recording apparatus so as to face the frame of each image forming unit. A color image recording apparatus comprising: a third gear selectively meshed .

Images