JP2023010453A - Image forming apparatus and fixing device - Google Patents

Abstract

To avoid a situation in which operations to attach and detach a fixing device becomes complicated due to the presence of an exhaust duct.SOLUTION: An image forming apparatus comprises: a fixing device 6 that fixes images onto a recording material; and an exhaust duct 100 that exhausts air in the fixing device. The fixing device is configured to be detachably attached to an image forming apparatus body. The image forming apparatus has moving means 107, 102a that move inlets 102A, 102B of the exhaust duct to use positions in connection with or proximity to exhaust ports 62a of the fixing device and retreat positions retreated from the exhaust ports.SELECTED DRAWING: Figure 6

Description

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

2. Description of the Related Art Conventionally, an image forming apparatus is known that includes a fixing device that fixes an image on a recording material, and an exhaust duct that exhausts gas from the fixing device.

For example, Patent Document 1 discloses an image forming apparatus in which a filter member capable of capturing fine particles is arranged in an exhaust duct for exhausting gas containing fine particles generated from a heating roller (fixing member) of a fixing device. ing.

However, in a conventional image forming apparatus provided with an exhaust duct, when the fixing device is detachable from the image forming apparatus main body, there arises a problem that the exhaust duct complicates the attaching/detaching operation of the fixing device.

In order to solve the above-described problems, the present invention provides an image forming apparatus comprising: a fixing device for fixing an image on a recording material; and an exhaust duct for discharging gas in the fixing device. is detachable from the main body of the image forming apparatus, and moves the entrance of the exhaust duct between a use position connected to or close to the exhaust port of the fixing device and a retracted position retracted from the exhaust port. It is characterized by having means.

According to the present invention, it is possible to avoid a situation in which the attachment/detachment work of the fixing device becomes complicated due to the exhaust duct.

1 is a schematic diagram of the overall configuration of a copier according to an embodiment; FIG. FIG. 2 is an explanatory perspective view of the entire copying machine; FIG. 2 is a perspective view illustrating a fixing device and an exhaust duct in the copier; FIG. 5 is an explanatory view showing the usage state (use position) of an exhaust duct for exhausting gas in the fixing device; FIG. 4 is an explanatory diagram showing another example of a fixing device in the copying machine; FIG. 4 is an explanatory view showing a retracted state (retracted position) of an exhaust duct for exhausting gas in the fixing device; (a) is a side view of the end duct portion for explaining the configuration of an example of the moving means when the duct entrance member of the exhaust duct is in the use position; (b) is a side view of the end duct portion for explaining the configuration of the moving means when the duct inlet member of the exhaust duct is at the retracted position; FIG. 5 is an explanatory view showing a modified example in which a plurality of partition members are provided for each end region in the same fixing device; FIG. 4 is an explanatory diagram of an example of a partition member in the fixing device when viewed from the paper width direction; FIG. 5 is an explanatory view of another example of the partition member in the same fixing device when viewed from the paper width direction;

An embodiment of an image forming apparatus to which the present invention is applied will be described below.
In the present embodiment, an electrophotographic copier (hereinafter simply referred to as "copier 1"), which is a color image forming apparatus, will be described as an example. can be applied as well.

FIG. 1 is a schematic configuration diagram of the entire copying machine 1 of the present embodiment. FIG. 2 is a perspective explanatory view of the entire copying machine 1. As shown in FIG. FIG. 3 is a perspective explanatory view illustrating the fixing device and the exhaust duct as seen through.
As shown in FIG. 1, an image forming unit 110 of a copier main body includes four image forming devices 2 (2a, 2b, 2c and 2d), an intermediate transfer device 3, a secondary transfer device 4, a paper conveying device 5, A fixing device 6, a toner replenishing device 7, and the like are provided. Further, below the image forming unit 110 in FIG. 1, there is provided a paper feeder 111 which is a recording material storage unit provided with a paper feed tray 40 which is a recording material storage container for storing paper P which is a recording material. A duplexer 113 is provided on the right side of the forming unit 110 in FIG. Further, an image reading device 114 is provided above the image forming section 110 in FIG. Each member in the image forming section 110 is accommodated in the exterior cover 10 .

The four image forming devices 2 (2a, 2b, 2c and 2d) form different monochromatic images using yellow (Y), magenta (M), cyan (C) and black (K) toners, respectively. It is. Each image forming device 2 has a photoreceptor 12 which is a rotatably supported drum-shaped latent image carrier, and the image forming unit 110 of the copying machine 1 has four photoreceptors 12 arranged in tandem. . Each image forming device 2 includes, around the photosensitive member 12, a charging device 13 as charging means, a developing device 14 as developing means, a primary transfer roller 15 as primary transfer means, and a latent image carrier cleaning means. A photoreceptor cleaning device 16 and a neutralizing device 17 as a neutralizing means are arranged. In FIG. 1, only the image forming device 2a for yellow is provided with reference numerals for the members constituting the image forming device 2, but the image forming device 2b for magenta, the image forming device 2c for cyan, and the image forming device 2c for black. 2d also has a similar configuration.

Further, below the four image forming devices 2 (2a, 2b, 2c and 2d) in the image forming section 110, a common latent image forming means for separately exposing the surface of each photoreceptor 12 is provided. An exposure device 18 is provided. The exposure device 18 includes optical components such as a light source and a lens, and irradiates the surface of the photoreceptor 12 with laser light emitted by the light source through the optical components, optically scans the surface of the photoreceptor 12, and performs optical writing. is performed.

The intermediate transfer device 3 is a belt-shaped primary transfer image carrying device in which the toner images of respective colors formed by the individual image forming devices 2 (2a, 2b, 2c and 2d) are primarily transferred by the primary transfer rollers 15 and carried. An intermediate transfer belt 20 is provided. In the intermediate transfer device 3 , the intermediate transfer belt 20 is wound around three intermediate transfer belt first support rollers 21 , intermediate transfer belt second support rollers 22 and intermediate transfer belt third support rollers 23 . Further, the intermediate transfer belt 20 is brought into contact with each photoreceptor 12 and passed between the photoreceptor 12 and each primary transfer roller 15 corresponding thereto. Further, an intermediate transfer belt cleaning device 24 and a secondary transfer roller 25 as secondary transfer means are arranged around the intermediate transfer belt 20 .

The secondary transfer device 4 is a belt-shaped secondary transfer image carrier that carries the toner image carried on the intermediate transfer belt 20 by secondary transfer by a secondary transfer roller 25 during double-sided printing. A transfer belt 30 is provided. In the secondary transfer device 4, the secondary transfer belt 30 is stretched over three support rollers, which are a secondary transfer belt first support roller 31, a secondary transfer belt second support roller 32, and a secondary transfer belt third support roller 33. spinning. Further, the secondary transfer belt 30 is brought into contact with the intermediate transfer belt 20 and passed between the intermediate transfer belt 20 and the secondary transfer roller 25 so that a predetermined amount of pressure is applied between the intermediate transfer belt 20 and the secondary transfer belt 30 . forming a secondary transfer nip. Further, around the secondary transfer belt 30, a secondary transfer belt cleaning device 35 and a back side image transfer device 36 for transferring the back side image carried on the secondary transfer belt 30 to the paper P are arranged. .

The paper feed device 111 has a configuration in which a paper feed tray 40 and a paper feed roller 41 for feeding the paper P in the paper feed tray 40 are provided in two stages, one above the other. do. The paper feed rollers 41 feed out the paper sheets P one by one from the top of each of the two paper feed trays 40 . A sheet conveying device 5, which is a recording material conveying means, conveys the sheet P fed from the sheet feeding device 111 from the bottom to the top in FIG. The sheet P is conveyed so as to pass through a sheet conveying path, which is a recording material conveying path extending in the direction of . The paper conveying device 5 includes a paper feed guide 42, a registration roller pair 43, a paper discharge guide 44, a paper discharge roller pair 45, and the like.

The paper feed guide 42 guides the paper P fed by the paper feed roller 41 toward the registration nip formed by the two rollers of the registration roller pair 43 . The registration roller pair 43 abuts and stops the leading edge of the paper P guided and conveyed by the paper feed guide 42 against the registration nip to correct the inclination of the paper P. After that, the sheet P is sent out toward the secondary transfer nip in timing with the images on the surfaces of the intermediate transfer belt 20 and the secondary transfer belt 30 .

The paper discharge guide 44 guides the paper P on which the image has been fixed by the fixing device 6 toward the paper discharge port 51 . A paper ejection roller pair 45 arranged at the paper ejection port 51 directs the paper P guided and conveyed by the paper ejection guide 44 toward the internal paper ejection portion 112 and pushes the exterior cover 10 in the direction of the arrow a in FIG. output to the outside of the

The fixing device 6 fixes the toner images transferred onto the paper P from the intermediate transfer belt 20 and the secondary transfer belt 30 . The fixing device 6 includes a fixing roller pair 61 consisting of a heating roller and a pressure roller, and heats and presses the paper P bearing the toner image. Note that the pressure roller of this embodiment also has a function as a heating roller.

Further, the copying machine 1 of this embodiment is provided with an exhaust duct 100 for exhausting gas (air) inside the fixing device 6 . This exhaust duct 100 is provided with a collection filter 104 and an exhaust fan 105 near the duct outlet. The exhaust duct 100 sucks gas (air) containing fine particles and the like discharged from the fixing device 6 from the duct inlet by an air current generated by the exhaust fan 105 , and the gas after the fine particles and the like are collected by the collection filter 104 . is discharged from the duct outlet on the back of the copying machine main body as indicated by the arrow f in FIG.

The toner supply device 7 supplies new toner to each of the four image forming devices 2 (2a, 2b, 2c and 2d) using a powder pump or the like. Toner cartridges 53 (53a, 53b, 53c and 53d) containing toners of respective colors are provided in the toner storage unit 52 of the toner replenishing device 7. As shown in FIG.

When the copier 1 forms color images on both sides of the paper P, the original is set on the contact glass of the image reader 114 and the start switch on the operation display section 115 shown in FIG. 2 is pressed. Then, the photosensitive member 12, one of the support rollers (21, 22 or 23) of the intermediate transfer belt 20, one of the support rollers (31, 32 or 33) of the secondary transfer belt 30, the paper feed roller 41, etc. Each rotates in time.

In the four image forming devices 2 (2a, 2b, 2c, and 2d), the surface of the photoreceptor 12 is aligned with each charging device 13 as each photoreceptor 12 rotates clockwise in FIG. charge likewise. Then, writing is performed on the photoreceptor 12 with individual writing light from the common exposure device 18 to form a latent image for each color, and each developing device 14 attaches toner of each color to the surface of the photoreceptor 12 . to form a toner image of each color on each photoreceptor 12 .

In the intermediate transfer device 3 , one of the support rollers ( 21 , 22 or 23 ) of the intermediate transfer belt 20 is driven to rotate and the other two support rollers are driven to rotate, thereby synchronizing the intermediate transfer belt 20 with the photosensitive member 12 . 1 to rotate in the counterclockwise direction in FIG. A primary transfer bias is applied to each of the primary transfer rollers 15 facing the photoreceptor 12 with the intermediate transfer belt 20 therebetween, and the toner images on the surface of each photoreceptor 12 are sequentially transferred to the intermediate transfer belt 20 . As a result, a first full-color image (image for the back side) is formed on the surface of the intermediate transfer belt 20 by superimposing toner images of four colors.

After the toner images have been transferred to the intermediate transfer belt 20, the photoreceptors 12 of the four image forming devices 2 (2a, 2b, 2c, and 2d) are cleaned by the photoreceptor cleaning device 16 to remove transfer residual toner remaining on the surfaces. , the potential on the surface is eliminated by the static elimination device 17 . After that, each charging device 13 charges again, the exposure device 18 writes a latent image, each developing device 14 develops, and a toner image of each color is formed again on each photoreceptor 12 . be.

In the secondary transfer device 4, one of the support rollers (31, 32 or 33) of the secondary transfer belt 30 is driven to rotate, and the other two support rollers are driven to rotate, and the secondary transfer belt 30 is subjected to intermediate transfer. It rotates in the clockwise direction in FIG. 1 in synchronism with the belt 20 . At the secondary transfer nip, a secondary transfer bias is applied to the secondary transfer roller 25 facing the intermediate transfer belt 20 with the secondary transfer belt 30 interposed therebetween, and the toner image on the surface of the intermediate transfer belt 20 is secondary transferred. Transfer onto the belt 30 . At this time, the secondary transfer belt cleaning device 35 is in a non-cleaning state in which it rotates about the cleaning device support shaft 56 and is separated from the secondary transfer belt 30 .

In the intermediate transfer device 3, the intermediate transfer belt cleaning device 24 electrostatically removes transfer residual toner remaining on the surface of the intermediate transfer belt 20 after the first full-color image has been transferred to the secondary transfer belt 30. . After that, the toner on the surface of each photoreceptor 12 was sequentially transferred onto the surface of the intermediate transfer belt 20 again by the individual primary transfer rollers 15 , and four color toner images were superimposed on the surface of the intermediate transfer belt 20 . A second full-color image (image for the front side) is formed.

The photoreceptors 12 of the four image forming devices 2 (2a, 2b, 2c, and 2d) after the toner images of the respective colors that form the second full-color image have been transferred transfer residual toner remaining on the surfaces to the photoreceptors. It is removed by cleaning device 16 . Then, the potential on the surface is eliminated by the static elimination device 17 to prepare for the next image forming cycle.

On the other hand, in the paper feeder 111 , one of the two paper feed rollers 41 is selectively rotated to send out the paper P in the paper feed tray 40 . In the paper conveying device 5 , the paper P fed from the paper feeding device 111 is guided by the paper feed guide 42 , and the leading edge of the paper P abuts against the registration nip of the registration roller pair 43 to stop. Then, the pair of registration rollers 43 are rotated in synchronization with the timing of the first full-color image and the second full-color image, and the paper P is transferred to the secondary transfer nip between the intermediate transfer belt 20 and the secondary transfer belt 30 . send in.

At the secondary transfer nip, a secondary transfer bias is applied to the secondary transfer roller 25 located on the back side of the paper P, thereby transferring the second full-color image on the surface of the intermediate transfer belt 20 to the paper P. Transfer to the front surface. Next, the rear surface image transfer device 36 applies a rear surface image transfer bias to the opposing portion of the secondary transfer belt 30 where the rear surface image transfer device 36 and the secondary transfer belt 30 have conveyed the sheet P slightly upward. As a result, the above-described first full-color image on the surface of the secondary transfer belt 30 is transferred to the back surface of the paper P. As shown in FIG.

After that, the paper P on which the toner images have been transferred on both sides thereof is guided to the fixing device 6, passed through a fixing nip formed by a pair of fixing rollers 61, and heat and pressure are applied to fix the transferred images on both sides. It is fixed on the paper P. After that, the paper P is guided by the paper discharge guide 44, and the transport destination is appropriately distributed by the path switching pawl arranged in the middle of the paper transport path formed by the paper discharge guide 44. FIG. Then, the paper P is discharged from the paper discharge port 51 to the outside of the exterior cover 10 by the paper discharge roller pair 45, and is stacked face down on the stack portion 50 of the internal paper discharge portion 112 with the front side down.

In the intermediate transfer device 3 , the intermediate transfer belt cleaning device 24 removes transfer residual toner remaining on the surface of the intermediate transfer belt 20 after the second full-color image has been transferred onto the paper P. In the secondary transfer device 4 , the secondary transfer belt cleaning device 35 removes transfer residual toner remaining on the surface of the secondary transfer belt 30 after the first full-color image has been transferred to the paper P. At this time, the secondary transfer belt cleaning device 35, which was in a non-cleaning state when the first full-color image was transferred from the intermediate transfer belt 20, is rotated around the cleaning device support shaft 56 to clean the secondary transfer belt. 30 to keep it in a cleaning state. The transfer residual toner on the surfaces of the intermediate transfer belt 20 and the secondary transfer belt 30 is removed to prepare for the next image carrying.

When the toner in each developing device 14 runs out by continuing image formation, toner of the same color is conveyed by a powder pump or the like from the toner cartridge 53 corresponding to the developing device 14 in the toner storage unit 52 of the toner replenishing device J. replenish toner. Further, when the sheet P is prevented from being conveyed by a jam, the opening/closing door 11 provided on the side surface of the copying machine main body is opened in the direction of arrow d in FIG. As a result, the duplexer 113 integrated with the opening/closing door 11 can be opened in the direction of the arrow d in FIG. be able to.

In the copier 1 shown in FIG. 1, when a full-color image is formed on one side of the paper P, the toner formed on the surface of the photoreceptor 12 of each of the four image forming devices 2 (2a, 2b, 2c and 2d) The image is transferred onto the surface of intermediate transfer belt 20 to form a full color image. Next, the full-color image is transferred onto one side of the paper P conveyed by the paper conveying device 5 without being transferred onto the secondary transfer belt 30 of the secondary transfer device 4 . Then, the transferred image is fixed on the sheet P by the fixing device 6, and the sheets are stacked face down on the stacking section 50 of the internal sheet discharging section 112 with the image surface facing down and aligned in page order.

Further, when forming a two-color image or a monochrome image on the sheet P with the copying machine 1 shown in FIG. Apparatus 2 is used to form a toner image. The toner image is transferred onto the paper P via the intermediate transfer belt 20 of the intermediate transfer device 3 and the secondary transfer belt 30 of the secondary transfer device 4 .

Next, an exhaust duct 100 for exhausting air from inside the fixing device 6 will be described.
FIG. 4 is an explanatory view showing an exhaust duct 100 for exhausting gas inside the fixing device 6 in this embodiment. 4, the fixing device 6 is shown in cross section.
As shown in FIG. 3, the exhaust duct 100 provided in the copier 1 of this embodiment is composed of two end duct portions 101A and 101B and a common duct portion 103 communicating with these end duct portions. ing. The two end duct portions 101A and 101B are arranged near both end regions of the fixing roller pair 61, and the common duct portion 103 is arranged so as to extend in the axial direction (paper width direction) of the fixing roller pair 61. . Duct inlet members 102A and 102B are attached to the ends of the two end duct portions 101A and 101B, respectively, and the duct inlet members 102A and 102B constitute inlets of the exhaust duct 100. As shown in FIG.

The fixing device 6 is provided with a storage case 62 that stores the fixing roller pair 61, and an exhaust port 62a is formed on the upper surface of the storage case 62 near both end regions in the paper width direction. The duct inlet members 102A and 102B attached to the tip portions of the end duct portions 101A and 101B of the exhaust duct 100 respectively take positions (use positions) connected to or adjacent to the respective exhaust ports 62a of the fixing device 6. .

As shown in FIG. 3, the end portion of the common duct portion 103 on the front side of the copying machine is connected to an end portion duct portion 101A arranged on the front side of the copying machine. are connected to an end duct portion 101B arranged on the back side of the copying machine. The end portion of the common duct portion 103 on the back side of the copier from the joint with the end duct portion 101B constitutes the exit (duct exit) of the exhaust duct 100, and the copier 1 is connected to the outer cover 10 of the copier 1 from the back. communicated with the outside. A collection filter 104 and an exhaust fan 105 are provided at the end of the common duct portion 103 .

By driving the exhaust fan 105, an air current toward the duct exit side is generated in the exhaust duct 100, and an intake air current is generated at the duct entrance members 102A and 102B of the end duct portions 101A and 101B. Due to this suction airflow, the gas in the storage case 62 of the fixing device 6 is discharged together with the fine particles in the storage case 62 from the exhaust ports 62a to the duct entrance members 102A and 102B. Then, it passes through the end duct portions 101A and 101B and the common duct portion 103 and is exhausted from the duct outlet to the outside of the machine. At this time, the fine particles discharged from the storage case 62 to the exhaust duct 100 are collected by the collection filter 104 provided near the duct exit of the common duct section 103, and are suppressed from being discharged to the outside of the machine. .

Overseas, especially in Europe, there is a high level of concern about the environment. compounds), ozone, dust, fine and ultrafine particles, etc. German government research institutes have an eco-label system called "Blue Angel Mark" (hereinafter abbreviated as BAM), and the use of the label is permitted only for certified products and services.

For BAM certification, it is necessary to clear various tests, one of which is the UFP (Ultra fine particle) test enforced from 2013. In the outline emission test method of BAM, an image forming apparatus is placed in a ventilated emission test room under predetermined conditions, the apparatus is operated continuously for 10 minutes by control from outside the test room, and the standby state and operating state are measured. conduct. UFP measurements are made with a designated aerosol counter connected to the test chamber to count particles. This measuring instrument measures the particle size and the number of particles. A representative model is a high-speed response particle sizer FMPS-3091 manufactured by TSI.

Further, according to the BAM standard, specifically, a UPF of 5.6 [nm] to 560 [nm] generated from an image forming apparatus is measured by a particle counter FMPS (Fast Mobility Particle Sizer). The number of UPFs is required to be less than 3.5×10 11 [pieces/10 minutes]. Therefore, regardless of the mass of the UPF, only the number of occurrences in 10 minutes is subject to the standard.

Fine particles (including UFP) generated from the copying machine 1 are generated from various members. It is known to be one of the causes of generation of fine particles. It is known that lowering the fixing temperature of the fixing device 6 is effective in reducing the total amount of fine particles emitted. The fixing temperature cannot be lowered.

Here, the particles generated in the fixing device 6 include particles generated as follows.
As shown in FIG. 4, the heating roller constituting the fixing roller pair 61 includes a base material 61a made of a cylindrical cored bar or an annular endless belt, and an elastic layer provided so as to cover the outer peripheral surface of the base material 61a. 61b and a surface layer 61c provided to cover the outer peripheral surface of the elastic layer 61b. The elastic layer 61b and the surface layer 61c are arranged in the longitudinal central portion of the base material 61a, and the elastic layer 61b and the surface layer 61c are not present on both ends of the base material 61a. The elastic layer 61b is made of, for example, a silicone rubber material, and has heat resistance against the fixing temperature and elasticity for ensuring a necessary nip width.

The heating roller is heated to a temperature required for fixing (fixing temperature) by a heating means such as a heater disposed inside the base material. Siloxane is generated as fine particles from the rubber material. Since the fine particles cannot pass through the surface layer 61c, they do not blow out from the portion (the outer peripheral surface of the elastic layer 61b) covering the elastic layer 61b with the surface layer 61c. However, since each end surface of the elastic layer 61b is not covered with the surface layer 61c, fine particles are ejected from each end surface of the elastic layer 61b. Therefore, in the fixing device 6, fine particles are generated near both ends of the heating roller. In particular, both ends of the fixing roller pair 61 are located outside the paper passing area (the width through which the paper passes). Likely to happen.

It should be noted that the pressure roller constituting the fixing roller pair 61 may also use a material that generates fine particles in the same way.

Moreover, the fine particles generated in the fixing device 6 are not limited to those generated from the elastic layers of the heating roller and the pressure roller. For example, as shown in FIG. 5, in a configuration in which a pressure pad 61C for receiving pressure from a pressure roller 61B is arranged on the inner peripheral surface of a fixing belt 61A as a fixing member, the inner peripheral surface of the fixing belt 61A A lubricant such as silicone oil is used to reduce the frictional force between the surface and the pressure pad 61C. In this configuration, when the lubricant (silicone oil) is heated by the heater 61D, fine particles are generated as in the case of the elastic layer (silicone material) described above. Although the fine particles are generated within the loop of the fixing belt 61A, they cannot pass through the fixing belt 61A, so they flow to each end of the fixing belt 61A and leak out from each end of the fixing belt 61A.

As described above, fine particles generated in the fixing device 6 tend to be generated near the ends of the fixing roller pair 61 . Therefore, in this embodiment, as shown in FIG. 4, the exhaust port 62a formed in the housing case 62 of the fixing device 6 is provided so as to face the vicinity of each end of the fixing roller pair 61 where fine particles are likely to be generated. It is As a result, fine particles generated in the vicinity of each end of the fixing roller pair 61 can be efficiently sucked into the exhaust duct 100, collected by the collection filter 104 of the exhaust duct 100, and discharged to the outside of the copier 1. It is possible to suppress the amount of the fine particles discharged.

Here, the fixing device 6 of the present embodiment is configured to be detachable from the main body of the copying machine so that a serviceman or the like can repair or maintain the fixing device 6 . In this embodiment, by opening the opening/closing door 11 provided on the side of the copier main body in the direction of the arrow d in FIG. can be exposed to the outside. A service person or the like can remove the fixing device 6 from the copying machine main body by pulling out the fixing device 6 horizontally from the side opening of the copying machine main body. When the fixing device 6 is attached to the main body of the copier, a serviceman or the like pushes the fixing device 6 in the horizontal direction through the side opening of the main body of the copier.

If the duct entrance of the exhaust duct 100 is attached to the exhaust port 62 a of the fixing device 6 , it is necessary to remove the duct entrance from the fixing device 6 when attaching or detaching the fixing device 6 . becomes complicated. Further, when the duct entrance of the exhaust duct 100 is connected to or is close to the exhaust port 62a of the fixing device 6, the exhaust duct 100 interferes with the fixing device 6, making attachment and detachment work of the fixing device 6 complicated.

In order to eliminate such troublesome attachment/detachment work of the fixing device 6, the copying machine 1 of the present embodiment has a use position connected to or close to the exhaust port 62a of the fixing device 6 and a retreat position retracted from the exhaust port 62a. A moving means for moving the duct inlet of the exhaust duct 100 is provided. Specifically, the moving means of the present embodiment moves the duct entrance members 102A and 102B of the two end duct portions 101A and 101B connected to the common duct portion 103 to the exhaust air of the fixing device 6. It is moved along the direction of contacting and separating from the port 62a.

As shown in FIG. 4, springs 107 as biasing means are attached between the ribs 101a provided on the end duct portions 101A and 101B and the duct entrance members 102A and 102B. The biasing force of the spring 107 biases the duct entrance members 102A and 102B away from the exhaust port 62a of the fixing device 6. As shown in FIG.

When the duct inlet members 102A and 102B are moved toward the exhaust port 62a by the moving means against the biasing force of the spring 107, the duct inlet members 102A and 102B assume the use position (state shown in FIG. 4). In this state, the duct entrance members 102A and 102B are connected to or close to the exhaust port 62a of the fixing device 6, and fine particles generated in the fixing device 6 are discharged from the exhaust port 62a into the exhaust duct 100 via the duct entrance members 102A and 102B. can be sucked into

On the other hand, when the duct inlet members 102A and 102B are moved away from the exhaust port 62a by the biasing force of the spring 107 by the moving means, the duct inlet members 102A and 102B assume the retracted position (the state shown in FIG. 6). In this state, since the duct inlet members 102A and 102B are separated from the exhaust port 62a of the fixing device 6, the exhaust duct 100 does not interfere with the attachment and detachment of the fixing device 6, which facilitates attachment and detachment of the fixing device 6. FIG.

In this embodiment, an elastic member 102b made of sponges is provided at the entrance edges of the duct entrance members 102A and 102B. As a result, when the duct entrance members 102A and 102B are moved to the use position, the elastic member 102b is deformed to allow the duct entrance members 102A and 102B and the storage case 62 of the fixing device 6 to be separated even if there are variations in the parts. The gap between is closed. Therefore, the duct entrance members 102A and 102B can be brought into close contact with the storage case 62 of the fixing device 6 stably. Therefore, fine particles generated in the fixing device 6 can be reliably sucked into the exhaust duct 100 from the exhaust port 62a of the storage case 62 through the duct entrance members 102A and 102B.

Further, in this embodiment, an exhaust port 62 a formed in the accommodation case 62 of the fixing device 6 is formed on the upper surface of the accommodation case 62 . Since the gas containing fine particles generated in the storage case 62 has a high temperature, it moves as an ascending current. Therefore, by forming the exhaust port 62a on the upper surface of the storage case 62, not only the airflow sucked by the exhaust fan 105 but also the rising airflow can be used to evacuate the gas in the storage case 62 from the exhaust port 62a to the exhaust duct 100. can be discharged, and more efficient exhaust can be achieved.

FIGS. 7A and 7B are side views of end duct portions 101A and 101B for explaining an example of the moving means of this embodiment.
The moving means of the present embodiment moves the duct inlet members 102A and 102B of the exhaust duct 100 to the retracted position in conjunction with the opening operation of the opening/closing door 11 . Specifically, engaged ribs 102a as engaged portions are provided on the outer side surfaces of the duct inlet members 102A and 102B. The engaged rib 102a has an inclined surface 102a1 and a horizontal surface 102a2.

When the opening/closing door 11 is closed, as shown in FIG. 7A, the engaging rib 11a provided on the opening/closing door 11 is positioned on the horizontal surface 102a2 of the engaged rib 102a in the duct entrance members 102A and 102B. . At this time, the duct entrance members 102A and 102B are pushed down against the urging force of the spring 107 and positioned at the use position, as indicated by white arrows in FIG. 7(a). The duct inlet members 102A and 102B, which tend to move upward by the biasing force of the spring 107, are restricted from moving by the engaging rib 11a of the opening/closing door 11 which abuts on the horizontal surface 102a2 of the engaged rib 102a. As a result, the duct inlet members 102A and 102B are positioned at the use position where they are connected to or close to the exhaust port 62a of the housing case 62 of the fixing device 6. As shown in FIG.

When the opening/closing door 11 is opened from the state shown in FIG. 7(a), the engagement rib 11a of the opening/closing door 11 moves (turns) in the direction of arrow d as shown in FIG. 7(b). As a result, the duct inlet members 102A and 102B, which tend to move upward by the biasing force of the spring 107, are released from movement restrictions, so that the duct inlet members 102A and 102B are moved as indicated by white arrows in FIG. 7(b). It moves upward due to the biasing force of the spring 107 . As a result, the duct inlet members 102A and 102B are positioned at the retracted position retracted from the exhaust port 62a of the housing case 62 of the fixing device 6. As shown in FIG.

As a result, when the opening/closing door 11 provided on the side of the main body of the copying machine is opened during repair or maintenance of the fixing device 6, the duct entrance members 102A and 102B of the exhaust duct 100 move away from the use position in conjunction with the opening operation. Move to the retracted position. Therefore, a service person or the like can remove the fixing device 6 from the side opening of the copying machine main body without removing the duct entrance from the fixing device 6 and without being interfered by the exhaust duct 100 .

Further, the moving means of the present embodiment moves the duct entrance members 102A and 102B of the exhaust duct 100 to the use position in conjunction with the closing operation of the opening/closing door 11. As shown in FIG. That is, when the opening/closing door 11 is closed from the state shown in FIG. 7(b), the engaging rib 11a of the opening/closing door 11 moves (rotates) in the direction of arrow d' as shown in FIG. 7(a). Then, when the engaging rib 11a of the opening/closing door 11 comes into contact with the inclined surface 102a1 of the engaged rib 102a of the duct entrance members 102A and 102B, and further the engaging rib 11a is moved in the direction of the arrow d', the engaging rib 11a moves so as to slide on the inclined surface 102a1. As a result, the duct entrance members 102A and 102B provided with the inclined surface 102a1 are pushed down against the biasing force of the spring 107, as indicated by the white arrows in FIG. 7(a). When the opening/closing door 11 is closed, the engaging rib 11a moves to the horizontal surface 102a2 of the engaged rib 102a, and the duct inlet members 102A and 102B are positioned at the use position.

As a result, when the opening/closing door 11 provided on the side of the main body of the copier is closed, the duct entrance members 102A and 102B of the exhaust duct 100 move from the retracted position to the use position in conjunction with the closing operation. Therefore, a service person or the like can attach the fixing device 6 to the main body of the copying machine without performing the work of attaching the duct entrance to the fixing device 6 and without being interfered by the exhaust duct 100 .

In this embodiment, as shown in FIG. 4, the air intake port 62b of the fixing device 6 is arranged on the storage case 62 at a position facing the end region of the fixing roller pair 61 in the paper width direction. there is Like the exhaust port 62a, the air intake port 62b is arranged at a position facing the end region of the fixing roller pair 61 in the paper width direction, so that the gas sucked into the storage case 62 from the air intake port 62b is reduced. However, fine particles generated in the end regions of the fixing roller pair 61 are put thereon, and are discharged from the exhaust port 62a to the exhaust duct 100 as they are. In this case, the gas in the vicinity of the central region of the fixing roller pair 61 is less likely to flow out to the exhaust duct 100, so the temperature of the central region of the fixing roller pair 61 that contacts the paper P and performs the fixing process is less likely to decrease. As a result, a reduction in fixing temperature is suppressed, and merits such as suppression of power consumption can be obtained.

In this embodiment, the intake port 62b is arranged at a position facing the exhaust port 62a (immediately below the exhaust port 62a). For example, it is not limited to the position facing the exhaust port 62a.

Further, as shown in FIG. 4, the fixing device 6 in this embodiment is provided with a partition member 63 that partitions the internal space of the storage case 62 in the paper width direction. The partition member 63 is arranged closer to the center side in the paper width direction than the exhaust port 62 a of the storage case 62 . Without such a partition member 63, fine particles generated in the end regions of the fixing roller pair 61 are drawn into the transport airflow of the paper P transported in the central region of the fixing roller pair 61, and the paper in the storage case 62 There is a risk that it will flow out of the outlet.

By providing the partition member 63 as in the present embodiment, fine particles generated in the end region of the fixing roller pair 61 are less likely to be drawn into the conveying airflow of the paper P, and the fine particles flow out from the paper outlet of the storage case 62. can be suppressed. As a result, most of the fine particles generated in the end regions of the fixing roller pair 61 can be sent to the exhaust duct 100 and efficiently collected by the collection filter 104 .

In particular, the partition member 63 in the present embodiment is outside the width direction edge position of the maximum width paper P (the edge position of the paper passing range shown in FIG. 4) in the paper width direction, and the fixing roller pair 61 in the sheet width direction (the position of the end face of the elastic layer 61b). According to this, most of the fine particles generated in the end regions of the fixing roller pair 61 are sent to the exhaust duct 100 and efficiently collected by the collection filter 104, which is highly effective.

Further, by providing the partition member 63 as in the present embodiment, the gas in the vicinity of the central region of the fixing roller pair 61 is less likely to flow toward the end region side. The temperature of the central region of the pair 61 is less likely to drop. As a result, a reduction in fixing temperature is suppressed, and merits such as suppression of power consumption can be obtained.

Furthermore, by providing the partition member 63 as in the present embodiment, the gas in the vicinity of the central region of the fixing roller pair 61 becomes less likely to flow toward the end regions. Diffusion of fine particles generated from the upper toner can be suppressed. In general, the higher the concentration of fine particles, the more likely they are to bond (aggregate) with each other. can be promoted. As a result, the particle size of the fine particles can be increased, and the fine particles are likely to adhere to the wall surface provided in the copier 1. In addition, the fine particles are easily collected by the filter or the like provided in the copier 1, and the fine particles are discharged outside the machine. can reduce the amount of

The partition member 63 of the present embodiment has only one partition member 63 (one for each end region) for partitioning the end region where the exhaust port 62a is provided and the central region, but as shown in FIG. Moreover, a plurality of partition members 63 may be provided for each end region. For example, it is preferable to provide the respective partition members 63 according to the positions of the width-direction end portions of the sheets P of a plurality of types of width-direction sizes (a plurality of standard sizes). As a result, even if the width of the paper P is different, the partition member 63 can efficiently suppress the diffusion of the fine particles generated from the toner on the paper P, and effectively promote the bonding (aggregation) of the fine particles.

Moreover, in order to obtain the above-described effects of the partition member 63, the partition member 63 is preferably provided so as to partition the entire periphery of the fixing roller pair 61, as shown in FIG. That is, it is preferable that the shape of the partition member 63 is configured so as to follow the outer diameter of the fixing roller pair 61, as shown in FIG.

When the partition member 63 is arranged near the central region of the fixing roller pair 61 (within the paper passing range in which the paper P is conveyed), the partition member 63 partitioning the entire periphery of the fixing roller pair 61 as shown in FIG. , the partition member 63 interferes with the transport of the paper P. In such a case, as shown in FIG. 10, a partition member 63 having a shape that does not partition the portion of the fixing roller pair 61 that interferes with the transport of the paper P may be used.

What has been described above is only an example, and each of the following aspects has a unique effect.
[First aspect]
The first mode is an image forming apparatus (for example, copying machine 1) comprising a fixing device 6 for fixing an image on a recording material (for example, paper P) and an exhaust duct 100 for exhausting gas in the fixing device. The fixing device is configured to be detachable from an image forming apparatus main body (for example, a copier main body). It is characterized by having a moving means (for example, spring 107, engaging rib 11a, engaged rib 102a, etc.) for moving the inlet of the exhaust duct (for example, duct inlet members 102A, 102B) between positions. .
In this aspect, the gas in the fixing device can be exhausted through the exhaust duct by moving the entrance of the exhaust duct to the use position where it is connected to or close to the exhaust port of the fixing device by the moving means. The moving means can move the inlet of the exhaust duct to a retracted position retracted from the exhaust port of the fixing device. By moving the entrance of the exhaust duct to the retracted position by the moving means, it is not necessary to remove the exhaust duct from the fixing device when attaching and detaching the fixing device to and from the image forming apparatus main body. Further, it is possible to avoid interference with the exhaust duct when attaching and detaching the fixing device to and from the image forming apparatus main body. As described above, according to this aspect, it is possible to avoid a situation in which the installation/removal work of the fixing device becomes complicated due to the exhaust duct.

[Second aspect]
A second mode is the first mode, wherein an opening/closing door 11 is provided at an entrance of the main body (for example, a side opening of the copier main body) through which the fixing device is put in and taken out, and the moving means is an opening operation of the opening/closing door. is interlocked with to move the entrance of the exhaust duct to the retracted position.
According to this, the inlet of the exhaust duct can be moved from the use position to the retracted position simply by opening the opening/closing door of the image forming apparatus main body. Therefore, the fixing device can be taken out from the entrance/exit of the main body of the image forming apparatus without removing the duct entrance from the fixing device and without being interfered with by the exhaust duct.

[Third aspect]
According to a third aspect, in the first or second aspect, an opening/closing door 11 is provided at an entrance of the main body through which the fixing device is put in and taken out, and the moving means moves the exhaust duct in conjunction with the closing operation of the opening/closing door. is moved to the position of use.
According to this, the entrance of the exhaust duct can be moved from the retracted position to the use position simply by closing the opening/closing door of the image forming apparatus main body. Therefore, the fixing device can be installed from the entrance of the main body of the image forming apparatus without being interfered with by the exhaust duct, and the exhaust duct can be used by moving it to the use position without installing the duct entrance from the fixing device. can do.

[Fourth aspect]
A fourth aspect is any one of the first to third aspects, wherein the fixing device includes a recording material (for example, Fixing is performed while the paper P) is nipped and conveyed, and the exhaust port 62a of the fixing device accommodates at least one of the fixing member and the pressure member (for example, the pair of fixing rollers 61). on the accommodating case 62, facing the end region of the at least one member in the recording material width direction (for example, the paper width direction) perpendicular to the recording material conveying direction. It is.
In the fixing device, fine particles are generated near the end region of at least one of the fixing member and the pressure member. According to this aspect, the fine particles generated in the vicinity of the end region can be efficiently discharged from the exhaust port to the exhaust duct.

[Fifth aspect]
A fifth aspect is, in the fourth aspect, a position where the air intake port 62b of the fixing device faces the recording material width direction end region of the at least one member (for example, the fixing roller pair 61) on the housing case 62. It is characterized in that it is arranged in
According to this aspect, the gas sucked into the storage case through the air inlet is directly exhausted through the air outlet to the exhaust duct while the fine particles generated in the end region of the at least one member are placed thereon. As a result, the gas in the vicinity of the central region of the at least one member is less likely to flow out to the exhaust duct, so that the temperature of the central region of the at least one member that contacts the recording material and performs the fixing process is less likely to decrease. . As a result, a reduction in fixing temperature is suppressed, and merits such as suppression of power consumption can be obtained.

[Sixth aspect]
According to a sixth aspect, in the fourth or fifth aspect, the fixing device has a partition member 63 that partitions the internal space of the storage case in the width direction of the recording material, and the partition member is positioned closer to the recording material than the exhaust port 62a. It is characterized by being arranged on the center side in the material width direction.
In the absence of such a partition member, fine particles generated in the end region of the at least one member are drawn into the conveying air current of the recording material conveyed in the central region of the at least one member, and the recording of the storage case becomes difficult. There is a risk that it will flow out from the material outlet. By providing the partition member of this aspect, fine particles generated in the end region of the at least one member are less likely to be drawn into the conveying airflow of the recording material, and the fine particles are prevented from flowing out from the recording material outlet of the containing case. can be suppressed. As a result, most of the particles generated in the end region of the at least one member can be sent into the exhaust duct.

[Seventh aspect]
A seventh aspect is according to the sixth aspect, wherein the partition member is positioned outside a recording material width direction end position of the recording material having the maximum width and inside a recording material width direction end position of the at least one member. It is characterized in that it is arranged in
According to this, most of the fine particles generated in the end region of the at least one member can be sent into the exhaust duct.

[Eighth aspect]
According to an eighth aspect, in any one of the first to seventh aspects, a filter member (for example, a collection filter 104) that traps fine particles in the gas exhausted by the exhaust duct is provided.
According to this, the gas discharged from the inside of the fixing device to the exhaust duct can be discharged to the outside of the image forming apparatus main body in a state in which fine particles contained in the gas are removed by the filter member.

[Ninth aspect]
In the ninth mode, a recording material (for example, paper P) is nipped and conveyed between a fixing member (for example, a heating roller, a fixing belt, etc.) and a pressure member (for example, a pressure roller), and an image is formed on the recording material. and a housing case 62 housing at least one of the fixing member and the pressure member (for example, a pair of fixing rollers 61); a partition member 63 partitioning the recording material in the recording material width direction (for example, the paper width direction) perpendicular to the conveying direction, wherein the partition member is located outside the end position of the recording material having the maximum width in the recording material width direction, and It is characterized in that the at least one member is arranged inside the position of the recording material width direction end portion of the at least one member.
In the fixing device, fine particles are generated near the end region of at least one of the fixing member and the pressure member. In the absence of such a partition member, fine particles generated in the end region of the at least one member are drawn into the conveying air current of the recording material conveyed in the central region of the at least one member, and the recording of the storage case becomes difficult. There is a risk that it will flow out from the material outlet. By providing the partition member of this aspect, fine particles generated in the end region of the at least one member are less likely to be drawn into the conveying airflow of the recording material, and the fine particles are prevented from flowing out from the recording material outlet of the containing case. can be suppressed. As a result, it is possible to suppress the fine particles from being discharged to the outside of the image forming apparatus main body.

[Tenth Aspect]
A tenth aspect is an image forming apparatus (for example, a copier 1) having a fixing device 6 for fixing an image on a recording material, wherein the fixing device of the ninth aspect is used as the fixing device. It is.
According to this, it is possible to suppress discharge of fine particles generated in the fixing device to the outside of the image forming apparatus main body.

Reference Signs List 1: Copier 2: Imaging device 3: Intermediate transfer device 4: Secondary transfer device 5: Paper conveying device 6: Fixing device 7: Toner replenishing device 10: Exterior cover 11: Open/close door 11a: Engaging rib 12: Photosensitive Body 13 : Charging device 14 : Developing device 15 : Primary transfer roller 18 : Exposure device 20 : Intermediate transfer belt 25 : Secondary transfer roller 30 : Secondary transfer belt 36 : Back image transfer device 40 : Paper feed tray 43 : Registration roller Pair 50: Stack section 55: Duplexer support shaft 61: Fixing roller pair 61a: Base material 61b: Elastic layer 61c: Surface layer 61A: Fixing belt 61B: Pressure roller 61C: Pressure pad 61D: Heater 62: Storage case 62a: Exhaust port 62b: Intake port 63: Partition member 100: Exhaust ducts 101A, 101B: End duct portion 101a: Ribs 102A, 102B: Duct inlet member 102a: Engaged rib 102a1: Inclined surface 102a2: Horizontal surface 102b: Elastic member 103 : Common duct unit 104 : Collection filter 105 : Exhaust fan 107 : Spring 110 : Image forming unit 111 : Paper feeder 112 : Internal paper discharge unit 113 : Duplex device 114 : Image reader 115 : Operation display unit P : Paper

JP 2011-180340 A

Claims (10)

a fixing device for fixing an image on a recording material;
An image forming apparatus comprising an exhaust duct for exhausting gas in the fixing device,
The fixing device is detachable from the main body of the image forming apparatus,
An image forming apparatus, comprising a moving means for moving an entrance of the exhaust duct between a use position connected to or adjacent to an exhaust port of the fixing device and a retracted position retracted from the exhaust port. The image forming apparatus according to claim 1,
an opening/closing door provided at an entrance of the main body of the image forming apparatus through which the fixing device is put in and taken out;
The image forming apparatus, wherein the moving means moves the entrance of the exhaust duct to the retracted position in conjunction with the opening operation of the opening/closing door. The image forming apparatus according to claim 1 or 2,
an opening/closing door provided at an entrance of the main body of the image forming apparatus through which the fixing device is put in and taken out;
The image forming apparatus, wherein the moving means moves the entrance of the exhaust duct to the use position in conjunction with the closing operation of the opening/closing door. The image forming apparatus according to any one of claims 1 to 3,
The fixing device performs fixing while sandwiching and conveying the recording material between the fixing member and the pressure member,
The exhaust port of the fixing device is located on a storage case that stores at least one member of the fixing member and the pressure member, and the at least one member in the width direction of the recording material perpendicular to the conveying direction of the recording material. An image forming apparatus, wherein the image forming apparatus is arranged at a position facing an end region of the . In the image forming apparatus according to claim 4,
An image forming apparatus according to claim 1, wherein an intake port of the fixing device is arranged on the accommodation case at a position facing a recording material width direction end region of the at least one member. The image forming apparatus according to claim 4 or 5,
The fixing device has a partition member that partitions the internal space of the storage case in the width direction of the recording material,
The image forming apparatus according to claim 1, wherein the partition member is arranged closer to the center side in the width direction of the recording material than the exhaust port. The image forming apparatus according to claim 6,
The partition member is arranged outside a recording material width direction end position of the recording material having the maximum width and inside a recording material width direction end position of the at least one member. Image forming device. The image forming apparatus according to any one of claims 1 to 7,
An image forming apparatus, comprising: a filter member that traps fine particles in the gas exhausted by the exhaust duct. A fixing device for fixing an image on a recording material while sandwiching and conveying the recording material between a fixing member and a pressure member,
a storage case that stores at least one of the fixing member and the pressure member;
a partition member that partitions the internal space of the storage case in a recording material width direction orthogonal to the recording material conveying direction,
The partition member is arranged outside a recording material width direction end position of the recording material having the maximum width and inside a recording material width direction end position of the at least one member. Fixing device. An image forming apparatus equipped with a fixing device for fixing an image on a recording material,
An image forming apparatus, wherein the fixing device according to claim 9 is used as the fixing device.

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