JP6988095B2 - Cooling device and image forming device - Google Patents

Description

The present invention relates to a cooling device and an image forming device.

In Patent Document 1, a housing for accommodating an image forming portion for forming an image on a recording medium and a side wall portion of one of the housings are covered from the outside of the housing and an exhaust port is formed. An opening formed in the exterior cover, the equipment accommodating space formed between the one side wall portion of the housing and the exterior cover, and the inside of the housing and the equipment accommodating space formed in the one side wall portion. An exhaust fan arranged in the equipment accommodating space, sucking air in the housing through the opening, and discharging the sucked air from an exhaust port formed in the exterior cover, and the equipment. The heat generating device arranged in the accommodation space is connected to the air discharge port of the exhaust fan and the exhaust port formed on the exterior cover, and a communication portion for communicating inside and outside is formed on the wall portion on the heat generating device side. The image-creating section includes an image carrier that carries an electrostatic latent image on the peripheral surface, and a developing section that develops the electrostatic latent image on the peripheral surface of the image-bearing body as a toner image. The exhaust fan is provided with a transfer unit for transferring a toner image on the surface of the image carrier to a recording medium and a fuser for thermally fixing the toner image transferred to the recording medium. It is attached to a portion adjacent to the fuser in the above, and a plurality of the heat generating devices are provided, and one of the plurality of heat generating devices is a motor for driving the image carrier. The motor includes an output shaft that is rotatably and integrally connected to the image carrier through the one side wall portion, and a cylindrical rotor that is rotatably and integrally connected to the output shaft in the equipment accommodation space. An image forming apparatus having a blade portion formed on the peripheral surface of the rotor is described.

Patent Document 2 describes an image forming unit, a transfer device for transferring a visible image formed by the image forming unit to a recording medium, and a fixing device for fixing the transferred visible image to a recording medium. An image forming device including an image forming unit and / and a driving unit for driving the fixing device, and an air flow is generated in the vicinity of the fixing device and the driving unit constituting the heat generating unit to generate an air flow from the heat generating unit. One end in the extension direction opens in the support wall supporting the heat exhaust portion in the vicinity of the heat generating portion so as to discharge the generated heat, and the other end in the extension direction discharges the recovered hot air or discharges cooling air. The fixing is provided inside the support wall, which is provided with a heat exhaust duct arranged so as to be connected to forced intake / exhaust means for intake, and to which an opening at one end in the extension direction of the heat exhaust duct is connected. A dam plate that partitions the image forming unit and the fixing device is provided along the longitudinal direction of the device, and the space formed by the dam plate and the mechanism portion of the fixing device itself is created in the heat exhaust duct. Described is an image forming apparatus characterized in that it is configured as a rectifying space for rectifying hot air toward an opening to which one end in an extension direction is connected.

In Patent Document 3, in an electrophotographic apparatus using a heat fixing device, the structure of the main body is used, and the space is substantially isolated from the space in which the heating fixing device is arranged in the direction intersecting the transport direction of the recording paper. It is characterized by having a duct constituting an air passage, a fan means provided on the air intake side of the duct, electrical components arranged in the duct, and a high temperature member arranged on the discharge side of the duct. An image forming apparatus is described.

Japanese Patent No. 595118 Japanese Patent No. 4608332 Japanese Unexamined Patent Publication No. 5-27531

If there is an unused space inside the cooling device body, the cooling device tends to be large. Therefore, in the cooling device, it is desirable to effectively utilize the space inside the cooling device main body. Similarly, in the image forming apparatus, it is desirable to effectively utilize the space inside the image forming apparatus main body.

An object of the present invention is to provide a cooling device and an image forming device that can effectively utilize the space inside the device as compared with a technique of mounting an air flow generator on the outside of a wall portion.

The present invention according to claim 1 is
The wall that forms part of the cooling device body and
An exterior member that covers the wall from the outside,
The object to be cooled, which is arranged inside the wall,
An airflow generator that generates airflow for cooling,
The board on which the electrical components are mounted and
Have,
The airflow generator is mounted on the inner surface of the wall portion.
The wall portion is closed at a portion where the airflow generator is attached.
The substrate is at least partially mounted on the outer surface of the portion between the exterior member and the wall portion and facing the air flow generator with respect to the wall portion .
From the outside, the cooling device is arranged in the order of the exterior member, the substrate, the wall portion, the air flow generator, and the object to be cooled.

According to the second aspect of the present invention, the airflow generator comprises a rotating body for transmitting a drive to other members, a magnetic field generating unit for generating a magnetic field for rotating the rotating body, and an airflow generating unit by rotation. The cooling device according to claim 1, further comprising an airflow generator that cools at least the magnetic field generating portion by the generated airflow.

The present invention according to claim 3 further includes an surrounding member that surrounds the airflow generator so as to block the heat radiated by the cooling object, and the surrounding member is attached to the cooling object from the airflow generator side. The cooling according to claim 1 or 2, wherein a discharge hole for discharging the airflow toward the airflow is formed, and is used as at least a part of a guide portion for guiding the airflow from the airflow generator to the cooling object. It is a device.

The present invention according to claim 4
The wall that forms part of the image forming device body,
An exterior member that covers the wall from the outside,
The image forming part that forms the image and the image forming part
A fixing device arranged inside the wall portion and fixing the image formed by the image forming portion to the recording medium using at least heat.
At least an airflow generator that generates an airflow for cooling the fixing device, and
The board on which the electrical components are mounted and
Have,
The airflow generator is mounted on the inner surface of the wall portion.
The wall portion is closed at a portion where the airflow generator is attached.
The substrate is at least partially mounted on the outer surface of the portion between the exterior member and the wall portion and facing the air flow generator with respect to the wall portion .
From the outside, the image forming apparatus is arranged in the order of the exterior member, the substrate, the wall portion, the airflow generator, and the fixing device.

According to the first aspect of the present invention, the space inside the cooling device can be effectively utilized as compared with the technique of mounting the airflow generating device on the outside of the wall portion. Further, as compared with the technique in which the substrate is mounted on the inner surface of the wall portion, it is possible to make it difficult to transfer the heat generated by the airflow generator to the substrate.

According to the second aspect of the present invention, the number of parts constituting the cooling device is compared with the technique of having a device for generating an air flow for cooling separately from the device for transmitting the drive to other members. Can be reduced.

According to the third aspect of the present invention, when the surrounding member is used as the entire part of the guide member, the guide member different from the surrounding member can be eliminated, and the surrounding member is used as a part of the guide member. Can make the guide member smaller as compared with the technique of not using the surrounding member as the guide member.

According to the fourth aspect of the present invention, the space inside the image forming and feeding device can be effectively utilized as compared with the technique of mounting the airflow generating device on the outside of the wall portion. Further, as compared with the technique in which the substrate is mounted on the inner surface of the wall portion, it is possible to make it difficult to transfer the heat generated by the airflow generator to the substrate.

It is a figure which shows the appearance of the image forming apparatus used in embodiment of this invention. It is a figure which shows typically the cross section which the image forming apparatus shown in FIG. 1 was broken by the plane A shown in FIG. It is a figure which shows typically the cross section which the image forming apparatus shown in FIG. 1 was broken in the BB plane shown in FIG. It is a figure which shows typically the image forming apparatus shown in FIG. 1 from the direction of arrow CC shown in FIG. It is a figure which shows typically the cross section which the image forming apparatus shown in FIG. 1 was broken in the DD plane shown in FIG. It is a figure which shows typically the cross section which the image forming apparatus shown in FIG. 1 was broken in the EE plane shown in FIG. It is a figure which shows the structure of the airflow generator which the image forming apparatus shown in FIG. 1 has. It is a figure explaining the airflow generated in the airflow generator shown in FIG. 7. It is the first figure which shows the structure of the surrounding part which surrounds the airflow generator shown in FIG. 7. FIG. 2 is a second diagram showing a configuration of a surrounding portion surrounding the airflow generator shown in FIG. 7. 9 is a diagram schematically showing a cross section of the surrounding portion shown in FIGS. 9 and 10 cut along the FF plane shown in FIG. 9. FIG. 1 is a first diagram illustrating a main air flow generated in the image forming apparatus shown in FIG. 1. FIG. 2 is a second diagram illustrating a main air flow generated in the image forming apparatus shown in FIG. 1.

Next, a mode for carrying out the present invention will be described with reference to the drawings. FIG. 1 shows an image forming apparatus 10 used in an embodiment of the present invention. The image forming apparatus 10 is an example of the image forming apparatus described in the claims, and is an example of the cooling device described in the claims.

As shown in FIG. 1, the image forming apparatus 10 has an apparatus main body 12, and the apparatus main body 12 has an exterior portion 20. The exterior portion 20 is a member that covers the main body frame 310 (see, for example, FIG. 2) described later from the outside.

A first opening / closing portion 30 is attached to the front surface of the exterior portion 20. The first opening / closing portion 30 opens / closes with respect to the exterior portion 20 as shown by the arrow a. Further, a second opening / closing portion 40 is attached below the first opening / closing portion 30 on the front surface of the exterior portion 20. The second opening / closing portion 40 opens / closes with respect to the exterior portion 20 as shown by the arrow b.

The second opening / closing portion 40 is a so-called manual tray, and paper on which an image is formed is placed on a surface facing upward when the second opening / closing portion 40 is opened with respect to the exterior portion 20.

Further, a drawer portion 50 is mounted on the front surface of the exterior portion 20 and below the second opening / closing portion 40. As shown by the arrow c, the drawer portion 50 can be pulled out to the front side with respect to the exterior portion 20, and can be stored in the exterior portion 20 by moving the drawer portion 50 from the pulled out state to the rear side.

Further, a third opening / closing portion 60 is mounted on the right side surface of the exterior portion 20. The third opening / closing portion 60 opens / closes with respect to the exterior portion 20 as shown by the arrow d.

Further, on the upper surface of the exterior portion 20, a discharge portion 22 from which the paper on which the image is formed is discharged is formed. Here, the paper is an example of the recording medium described in the claims.

The exterior portion 20, the first opening / closing portion 30, the second opening / closing portion 40, the drawer portion 50, and the third opening / closing portion 60 are formed of, for example, resin.

FIG. 2 schematically shows a cross section of the image forming apparatus 10 broken at the surface A shown in FIG. In FIG. 2, for convenience of illustration, the image forming unit 100, the transfer device 130, and the like, which will be described later, are not shown.

As shown in FIG. 2, the first opening / closing portion 30 is connected to the exterior portion 20 so that it can be opened / closed with respect to the exterior portion 20 by the hinge portions 32, 32 used as the connecting means. Further, in the second opening / closing portion 40, only the hinge portions 42 and 42 (see FIG. 3, which are located on the right side of the hinge portions 42 arranged on the left and right sides, respectively) used as the connecting means are shown. 3), it is connected to the exterior portion 20 so that it can be opened and closed with respect to the exterior portion 20.

Further, as shown in FIG. 2, the third opening / closing portion 60 is connected to the exterior portion 20 so that it can be opened / closed with respect to the exterior portion 20 by the hinge portions 62, 62 used as the connecting means.

Further, as shown in FIG. 2, a fixing device 450 is arranged inside the exterior portion 20. The fixing device 450 is an example of an object to be cooled. Further, the fixing device 450 is arranged inside the main body frame 310, which will be described later. Here, the inside of the main body frame 310 means the side closer to the center of the space surrounded by the exterior portion 20 with respect to the main body frame 310. Details of the fixing device 450 will be described later.

Further, as shown in FIG. 2, toner storage containers 410Y, 410M, 410C, and 410K are arranged inside the exterior portion 20. The toner storage container 410Y stores yellow toner, the toner storage container 410M stores magenta toner, the toner storage container 410C stores cyan toner, and the toner storage container 410K stores black toner. Is stored.

In the following description, when it is not necessary to distinguish between the toner storage containers 410Y, 410M, 410C and 410K, these are collectively referred to as the toner storage container 410. The toner storage container 410 can be removed from the inside of the exterior portion 20 through the opening formed in the exterior portion 20 by opening the first opening / closing portion 30, and can be mounted inside the exterior portion 20. It has become. In other words, the first opening / closing section 30 is an opening / closing section that is opened / closed in order to remove the toner storage container 410 from the exterior portion 20 and mount the toner storage container 410 in the exterior portion 20.

Further, as shown in FIG. 2, a waste toner recovery container 420 is arranged in the exterior portion 20. The waste toner collection container 420 collects the toner removed from the photoconductor drums 112Y, M, C, and K described later and the toner removed from the intermediate transfer belt 132 described later. The waste toner recovery container 420 can be removed from the exterior portion 20 and mounted inside the exterior portion 20 via an opening formed in the exterior portion 20 by opening the third opening / closing portion 60. It has become like. In other words, the third opening / closing unit 60 is an opening / closing unit that is opened / closed in order to remove the waste toner collection container 420 from the exterior portion 20 and mount the waste toner recovery container 420 in the exterior portion 20.

Further, as shown in FIG. 2, the main body frame 310 is arranged in the exterior portion 20. The device described above by the main body frame 310, the exterior portion 20, the first opening / closing portion 30, the second opening / closing portion 40, the plate-shaped portion 50a (see FIG. 1) located on the front side of the drawer portion 50, and the third opening / closing portion 60. The main body 12 is configured. Here, the device main body 12 is an example of the cooling device main body, and is an example of the image forming device main body. For convenience of illustration, in FIG. 2 and other figures, only a part of all the main body frames 310 included in the image forming apparatus 10 is shown.

The main body frame 310 is used as an example of the wall portion, and forms a part of the device main body 12 as described above. Further, the exterior portion 20 covers the main body frame 310 from the outside. Here, the outside means the side opposite to the center of the space surrounded by the exterior portion 20 with respect to the main body frame 310. The main body frame 310 is made of metal, for example, and sheet metal can be used, for example.

For example, a plurality of substrates 650 are mounted on the outer surface 310a of the main body frame 310. Here, the outer surface 310a of the main body frame 310 means a surface facing the exterior portion 20 of the main body frame 310. For example, an electrical component 652 (not shown in FIG. 2, see FIG. 5) such as a coil is mounted on the substrate 650.

Further, a first motor 662, a second motor 664, and a third motor 666 are mounted on the outer surface 310a of the main body frame 310. Here, the inner surface 310b of the main body frame 310 means a surface opposite to the surface of the main body frame 310 facing the exterior portion 20. Details of the first motor 662, the second motor 664, and the third motor 666 will be described later.

Further, as shown in FIG. 2, a first fan device 610, a second fan device 620, a third fan device 630, and a fourth fan device 700 are arranged in the exterior portion 20. The first fan device 610 is arranged on the front side in the exterior portion 20, and generates an air flow so as to suck air from the front surface side of the exterior portion 20. More specifically, air is passed from the outside of the exterior portion 20 to the inside of the exterior portion 20 through the gap 70 (see FIG. 3) formed between the first opening / closing portion 30 and the second opening / closing portion 40. Generates an air flow to suck in.

The second fan device 620 is arranged near the left side surface in the exterior portion 20. More specifically, the second fan device 620 is mounted on the outer surface 310a of the main body frame 310. The second fan device 620 generates an air flow so as to suck air from the left side surface side of the exterior portion 20. A gap (not shown) through which air passes is formed on the left side surface of the exterior portion 20.

The third fan device 630 is located on the rear side in the exterior portion 20 and on the right side in the exterior portion 20. The third fan device 630 generates an air flow so as to discharge the air to the outside of the exterior portion 20. More specifically, an air flow is generated so as to discharge air from the inside of the exterior portion 20 to the outside of the exterior portion 20 through the gap 24 (see FIG. 1) formed on the upper surface of the exterior portion 20. ..

The fourth fan device 700 is an example of an airflow generator that generates an airflow for cooling. The fourth fan device 700 is mounted on the inner surface 310b of the main body frame 310. The details of the fourth fan device 700 will be described later.

Generally, on the outer surface 310a side of the main body frame, a fixing device 450, an image forming unit 100 described later, a clutch device for driving an intermediate transfer belt 132 described later, a drive transmission mechanism such as a gear member, and electrical components In many cases, a substrate such as a substrate 650 provided with 652 and a drive source such as a first motor 662, a second motor 664, and a third motor 666 are mounted.

As described above, the reason why the substrate 650 and the like are often mounted on the outer surface 310a of the main body frame 310 is that the substrate 650 and the like are mounted on the inner surface 310b of the main body frame 310 as compared with the case where the substrate 650 and the like are mounted on the inner surface 310b of the main body frame 310. This is because it is easy to replace and repair. That is, when the board 650 or the like is mounted on the inner surface 310b of the main body frame 310, it is necessary to remove the main body frame 310 when replacing or repairing the board 650 or the like, but the inside of the main body frame 310. This is because if the substrate 650 or the like is mounted on the surface 310a, the substrate 650 or the like can be repaired or replaced by removing the exterior portion 20 without removing the main body frame 310.

As described above, since the substrate 650 and the like are often mounted on the outer surface 310a of the main body frame 310, for example, a fan device such as the fourth fan device 700 is mounted on the outer surface 310a of the main body frame 310. There is a risk that it will not be possible to secure sufficient space for mounting. On the other hand, in this embodiment, by mounting the fourth fan device 700 on the inner surface 310b of the main body frame 310, the space on the inner surface side of the main body frame 310 is effectively utilized, and the inside of the exterior portion 20 is used. The space for arranging the fourth fan device 700 in the above is secured.

As described above, when the fourth fan device 700 is mounted on the inner surface 310b of the main body frame 310, it is easy to secure a space for arranging the fourth fan device 700 in the exterior portion 20, but it is a device that generates heat. It is easy for a certain fixing device 450 and the fourth fan device 700 to be in close contact with each other. Therefore, when the fourth fan device 700 is mounted on the inner surface 310b of the main body frame 310, the fourth fan device 700 may be easily affected by the heat generated by the fixing device 450.

Therefore, in this embodiment, as shown in FIG. 2, a surrounding portion 770 is provided, and the surrounding portion 770 surrounds the fourth fan device 700 so as to block the heat radiated by the fixing device 450. Details of the enclosure 770 will be described later.

FIG. 3 is a diagram schematically showing a cross section of the image forming apparatus 10 broken at the BB plane shown in FIG. 2. As shown in FIG. 3, the fixing device 450 described above has a heating roll 452 having a heat source such as a halogen lamp, and a pressing member 454 that presses the paper against the heating roll 452.

Further, as shown in FIG. 3, an image forming portion 100 is arranged in the exterior portion 20. The image forming unit 100 adopts an electrophotographic method and forms an image on paper. The image forming unit 100 has, for example, four image forming units 110Y, 110M, 110C, and 110K. The image forming unit 110Y forms a yellow toner image, the image forming unit 110M forms a magenta image, the image forming unit 110C forms a cyan image, and the image forming unit 110K forms a black toner image.

The image forming unit 110K includes a photoconductor drum 112K used as an image holder, a charging device 114K for charging the surface of the photoconductor drum 112K, and a latent image forming device 116K for forming a latent image on the photoconductor drum 112K. It has a developing device 118K for developing a latent image formed on the photoconductor drum 112K, and a cleaning device 122K for cleaning the surface of the photoconductor drum 112K after transferring a black toner image to an intermediate transfer belt 132 described later. ..

Similarly, the image forming unit 110Y has a photoconductor drum 112Y, a charging device 114Y, a latent image forming device 116Y, a developing device 118Y, and a cleaning device 122Y. Similarly, the image forming unit 110M includes a photoconductor drum 112M, a charging device 114M, a latent image forming device 116M, a developing device 118M, and a cleaning device 122M. Similarly, the image forming unit 110C includes a photoconductor drum 112C, a charging device 114C, a latent image forming device 116C, a developing device 118C, and a cleaning device 122C.

A transfer device 130 is further arranged inside the exterior portion 20. The transfer device 130 has an intermediate transfer belt 132, which is an example of an intermediate transfer body. The intermediate transfer belt 132 is suspended from a plurality of roller members, and the drive is transmitted from the drive roll 134, which is one of the plurality of roller members for suspending the intermediate transfer belt 132, as shown in FIG. Rotate in the direction of the arrow.

The transfer device 130 further includes a primary transfer device 136Y, 136M, 136C, 136K. The primary transfer device 136Y transfers the yellow toner image formed on the surface of the photoconductor drum 112Y to the intermediate transfer belt 132, and the primary transfer device 136M transfers the magenta toner formed on the surface of the photoconductor drum 112M. The image is transferred to the intermediate transfer belt 132, the primary transfer device 136C transfers the cyan toner image formed on the surface of the photoconductor drum 112C to the intermediate transfer belt 132, and the primary transfer device 136K transfers the image to the photoconductor drum 112C. The black toner image formed on the surface of 112K is transferred to the intermediate transfer belt 132.

The transfer device 130 further includes a secondary transfer device 138. The secondary transfer device 138 further transfers the toner image transferred to the intermediate transfer belt 132 to the paper.

The transfer device 130 further includes a cleaning device 142 that cleans the surface of the intermediate transfer belt 132 and removes toner and the like remaining on the surface of the intermediate transfer belt 132 from the surface of the intermediate transfer belt 132.

A paper feeding device 500 is further arranged in the exterior portion 20. The paper feed device 500 has a paper storage unit 502 for storing paper. The paper storage unit 502 is attached to the drawer unit 50 and can be pulled out from the exterior unit 20 integrally with the drawer unit 50, and can be attached to the exterior unit 20 integrally with the drawer unit 50.

The paper feed device 500 further includes a main delivery roll 504. The main delivery roll 504 feeds the paper stored in the paper storage unit 502 toward the secondary transfer device 138.

The paper feed device 500 further includes an auxiliary delivery roll 506. The auxiliary delivery roll 506 sends out the paper placed on the upper side of the second opening / closing portion 40 toward the resist roll 536, which will be described later, in a state where the second opening / closing portion 40 is opened with respect to the exterior portion 20.

A transport path 530 for transporting paper is formed in the exterior portion 20, and the transport path 530 has a main transport path 532 and an auxiliary transport path 534. The main transport path 532 is used to transport paper from the paper storage unit 502 to the discharge unit 22. Along the main transport path 532, in order from the upstream side in the paper transport direction, the above-mentioned main delivery roll 504, the transport roll 540, the resist roll 536, the above-mentioned secondary transfer device 138, and the above-mentioned fixing device 450 , Discharge roll 538 and the like are arranged.

The transport roll 540 transports the paper toward the resist roll 536.

The resist roll 536 corrects the skew of the paper, and feeds the corrected paper to the secondary transfer device 138 at a predetermined timing.

The ejection roll 538 ejects the paper on which the toner image is fixed by the fixing device 450 to the ejection unit 22.

The auxiliary transport path 534 is used to transport paper from the auxiliary delivery roll 506 to the resist roll 536.

FIG. 4 is a diagram schematically showing an image forming apparatus 10 in a state where the third opening / closing portion 60 is removed from the exterior portion 20 from the direction of arrows CC shown in FIG. As described above, the waste toner recovery container 420 can be removed from the exterior portion 20 through the opening formed in the exterior portion 20 by opening the third opening / closing portion 60, and enters the exterior portion 20. It can be installed.

FIG. 5 is a diagram schematically showing a cross section of the image forming apparatus 10 broken at the DD plane shown in FIG. 2. As shown in FIG. 5, on the outer surface 310a of the main body frame 310, the third fan device 620, the substrate 650, the first motor 662, the second motor 664, and the third motor 666 are as described above. It is attached to.

Here, the first motor 662 is connected to the photoconductor drums 112Y, 112M, 112C via, for example, a drive transmission mechanism (not shown) having a gear or the like, and drives the photoconductor drums 112Y, 112M, 112C. .. Further, the second motor 664 is connected to the developing devices 118Y, 118M, 118C via, for example, a drive transmission mechanism (not shown) having a gear or the like, and drives the developing devices 118Y, 118M, 118C. Further, the third motor 666 is connected to the developing device 118K via, for example, a drive transmission mechanism (not shown) having a gear or the like, and drives the developing device 118K.

FIG. 6 is a diagram schematically showing a cross section of the image forming apparatus 10 broken along the EE plane shown in FIG. 2. As shown in FIG. 6, the fourth fan device 700 and the surrounding portion 770 are mounted on the inner surface 310b of the main body frame 310 as described above. Further, as shown in FIG. 6, a storage body 790 for accommodating a drive transmission mechanism 810 (see FIG. 11) described later is mounted on the inner surface 310a of the main body frame 310. Details of the storage body 790 will be described later.

FIG. 7 shows the fourth fan device 700. As shown in FIG. 7, the fourth fan device 700 has a rotating shaft 702. The rotating shaft 702 is an example of a rotating body that rotates to transmit a drive to another member. Examples of other members to which the rotating shaft 702 transmits the drive include a fixing device 450, a developing device 118K, a driving roll 134, and the like (see FIG. 11). The rotary shaft 702 is mounted on the motor housing 706 so that it can rotate using bearings 704 and 704.

The fourth fan device 700 further includes an iron core member 710 and a winding portion 712. The iron core member 710 is a so-called stator and is fixed to the motor housing 706. The winding portion 712 is a so-called coil, and is made of a conductive thin wire wound around an iron core member 710.

The fourth fan device 700 further includes a rotor member 716. The rotor member 716 is fixed to the rotary shaft 702, and the magnet member 718 is mounted at a position facing the iron core member 710 and the winding portion 712 of the rotor member 716, which rotates integrally with the rotary shaft 702. There is. Further, a ventilation hole 716a for passing an air flow is formed at a position of the rotor member 716 facing the fan member 730 described later. A plurality of ventilation holes 716a are arranged radially, for example, around a rotation shaft 702.

The above-mentioned iron core member 710, the above-mentioned winding portion 712, and the above-mentioned magnet member 718 constitute a magnetic field generating portion 724 that generates a magnetic field for rotating the rotating shaft 702.

The fourth fan device 700 further includes a fan member 730. The fan member 730 is an example of an airflow generator, and the airflow is generated by rotation, and at least the magnetic field generating portion 724 is cooled by the generated airflow. Further, the fan member 730 is formed with a ventilation hole 730a for passing an air flow. A plurality of ventilation holes 730a are arranged radially, for example, around a rotation shaft 702. Further, the fan member 730 has a blade portion 730b that generates an air flow. A plurality of blade portions 730b are arranged radially, for example, around a rotation shaft 702.

As shown in FIG. 7, the fourth fan device 700 further includes a substrate 708 to which the motor housing 706 is fixed.

FIG. 8 illustrates the flow of air in the fourth fan device 700. As shown by an arrow in FIG. 8, when the blade portion 730b generates an air flow due to the rotation of the fan member 730, the fan member 730 passes through the ventilation holes 730a and the ventilation holes 716a to enter the space inside the rotor member 716. And the air flows in. Then, the air that has flowed into the rotor member 716 passes between the magnet member 718 and the iron core member 710, and further passes between the rotor member 716, the magnet member 718, and the substrate 708. It is discharged from the space inside the rotor member 716.

The fourth fan device 700 described above is, for example, a device that transmits drive to other members such as the fixing device 450, and is also a device that generates an air flow for cooling the fixing device 450 as described later. .. Therefore, in this embodiment, the image forming apparatus 10 is configured to have a device for generating an air flow for cooling the fixing device 450, in addition to the device for transmitting the drive to other members such as the fixing device 450. The number of parts of the image forming apparatus 10 can be reduced as compared with the above.

FIG. 9 shows the enclosure 770 and the storage body 790. As shown in FIG. 9, the surrounding portion 770 has a side wall portion 772 and a lid portion 774. The side wall portion 772 covers a part of the side surface of the fourth fan device 700 from the side surface side. Further, the lid portion 774 is a member attached to the side wall portion 772 so as to cover the side wall portion 772, and for example, a plurality of intake holes 774a are formed. Further, in the surrounding portion 770, a discharge hole 776 for discharging the air flow toward the fixing device 450 is formed in a state where the lid portion 774 is attached to the side wall portion 772.

Further, as shown in FIG. 9, the accommodating body 790 has a side wall portion 792. The side wall portion 792 covers a part of the side surface side of the fourth fan device 700 so as to close the portion of the side wall portion 772 that does not cover the fourth fan device 700.

FIG. 10 shows a storage body 790 and a surrounding portion 770 with the lid portion 774 removed.

As described above, since the surrounding portion 770 surrounds the fourth fan device 700, the heat radiated by the fixing device 450 can be blocked, and the heat radiated by the fixing device 450 is transferred to the fourth fan member. The impact can be reduced. Further, the surrounding portion 770 and the accommodating body 790 have a function as a guide portion for discharging the air flow generated by the fourth fan device 700 from the discharge hole 776 and guiding the air flow to the fixing device 450.

That is, the surrounding portion 770 is used as a part of the guide portion that guides the air flow from the fourth fan device 700 to the fixing device 450. Therefore, in the present embodiment, as compared with the technique having a guide portion for guiding the air flow from the fourth fan device to the fixing device 450, in addition to the surrounding portion 770 for blocking the heat radiation from the fixing device 450. , The number of parts can be reduced.

FIG. 11 is a diagram schematically showing a cross section of the surrounding portion 770 and the accommodating body 790 broken at the plane FF plane shown in FIG. The fourth fan device 700 is surrounded by the surrounding portion 770 and the accommodating body 790 as described above. Further, the rotary shaft 702 of the fourth fan device 700 is connected to the fixing device 450, the developing device 118K, and the driving roll 134 via a drive transmission mechanism 750 having, for example, a gear, a clutch device, and the like, and the fixing device 450 and the developing device. The drive is transmitted to the device 118K and the drive roll 134.

Further, the storage body 790 has, for example, a gear, a clutch, or the like, and houses a drive transmission mechanism 810 that transmits drive from the motor 812 to the discharge roll 538.

12 and 13 explain the flow of air in the image forming apparatus 10. As shown in FIGS. 12 and 13, the first fan device 610 and the second fan device 620 generate an air flow so that air flows into the exterior portion 20. Further, the fourth fan device 700 generates an air flow from the front side to the rear side of the image forming device 10 at a position on the upper side of the intermediate transfer belt 132.

Further, the fourth fan device 700 generates an air flow toward the fixing device 450. Further, the third fan device generates an air flow from the left side to the right side at the upper position of the fixing device 450, and also generates an air flow that discharges the air to the outside of the exterior portion 20.

10 ... Image forming device 20 ... Exterior part 100 ... Image forming part 310 ... Main body frame 310a ... Outer surface 310b ... Inner surface 450 ... Fixing device 650 ... Board 652 ... Electrical components 700 ... 4th fan device 702 ... Rotating shaft 724 ... Magnetic field generator 730 ... Fan member 770 ... Surrounding part 776 ... Discharge hole

Claims (4)

The wall that forms part of the cooling device body and
An exterior member that covers the wall from the outside,
The object to be cooled, which is arranged inside the wall,
An airflow generator that generates airflow for cooling,
The board on which the electrical components are mounted and
Have,
The airflow generator is mounted on the inner surface of the wall portion.
The wall portion is closed at a portion where the airflow generator is attached.
The substrate is at least partially mounted on the outer surface of the portion between the exterior member and the wall portion and facing the air flow generator with respect to the wall portion .
A cooling device arranged in the order of the exterior member, the substrate, the wall portion, the air flow generator, and the object to be cooled from the outside. The airflow generator is
A rotating body for transmitting drive to other members,
A magnetic field generating unit that generates a magnetic field that rotates the rotating body,
An airflow generator that generates an airflow by rotation and cools at least the magnetic field generating portion by the generated airflow.
The cooling device according to claim 1. Further having a surrounding member surrounding the airflow generator so as to block the heat radiated by the cooling object.
The surrounding member is formed with a discharge hole for discharging the airflow from the airflow generator side toward the cooling target, and is a guide portion for guiding the airflow from the airflow generator to the cooling target. The cooling device according to claim 1 or 2, which is used at least as a part. The wall that forms part of the image forming device body,
An exterior member that covers the wall from the outside,
The image forming part that forms the image and the image forming part
A fixing device arranged inside the wall portion and fixing the image formed by the image forming portion to the recording medium using at least heat.
At least an airflow generator that generates an airflow for cooling the fixing device, and
The board on which the electrical components are mounted and
Have,
The airflow generator is mounted on the inner surface of the wall portion.
The wall portion is closed at a portion where the airflow generator is attached.
The substrate is at least partially mounted on the outer surface of the portion between the exterior member and the wall portion and facing the air flow generator with respect to the wall portion .
An image forming apparatus in which the exterior member, the substrate, the wall portion, the airflow generator, and the fixing device are arranged in this order from the outside.

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