This application is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2017-146676 filed Jul. 28, 2017.
The present invention relates to a fixing device and an image forming apparatus.
According to an aspect of the invention, there is provided a fixing device including: a rotary member; a heating member provided inside the rotary member; supply parts that supply power to the heating member; cover parts that cover the supply parts; and fixing members that fix the rotary member in an axial direction. The cover parts have a restriction part that restricts movement of the rotary member in the axial direction.
Exemplary embodiments of the present invention will be described in detail based on the following figures, wherein:
Exemplary embodiments of the present invention will be described below with reference to the drawings. Note that the exemplary embodiments described below show, as examples, a fixing device and an image forming apparatus for embodying the technical idea of the present invention and are not intended for limiting the present invention thereto. The present invention can be equally applicable to other exemplary embodiments included in the scope of the claims.
Referring to
The sheet feed units 18 each include a sheet feed unit body 20, a sheet feed cassette 22 that accommodates the recording media 140, a pickup roller 24 that picks up the recording media 140 stacked in the sheet feed cassette 22, and a feed roller 28 and a retard roller 26 that feed the recording media 140 while separating them into individual media. As the pickup roller 24, the feed roller 28, and the retard roller 26 rotate, the recording media 140 in the sheet feed cassette 22 are transported along the transport path 32 to registration rollers 38 (described below). The sheet feed cassette 22 is removably attached to the sheet feed unit body 20. Although there are two sheet feed units 18 in the first exemplary embodiment, as shown in
The image forming unit 14 uses an electrophotographic system and includes: an image carrier 44, which is formed of a photoconductor; a charging device 56 that is formed of, for example, a charging roller and uniformly charges the image carrier 44; a photo-writing device 58 that writes, with light, a latent image on the image carrier 44 charged by the charging device 56; a developing device 60 having a developing roller that develops the latent image formed on the image carrier 44 by the photo-writing device 58 into a visible image using toner; a transfer device 42 that is formed of, for example, a transfer roller for transferring the toner image formed by the developing device 60 to a recording medium 140; a cleaning device 62 for cleaning the residual toner on the image carrier 44; and a fixing device 36 that fixes the toner image transferred to the recording medium 140 by the transfer device 42 to the recording medium 140.
The photo-writing device 58 is formed of, for example, a scanning laser exposure device that forms a latent image on the image carrier 44 through a process cartridge 64 (described below). In other exemplary embodiments, the photo-writing device 58 may alternatively be an LED, a surface emitting laser, or the like.
The process cartridge 64 includes the image carrier 44, the charging device 56, the developing device 60, and the cleaning device 62, which are integrated together, and is replaceable.
The transport path 32 is a path for the recording media 140 and is continuous from the pickup roller 24 of the sheet feed unit 18 at the bottom of the image forming apparatus body 12 to the discharge port 34 at the top of the image forming apparatus body 12. The transport path 32 is located inside the image forming apparatus body 12 and has a substantially vertical portion extending from the pickup roller 24 of the sheet feed unit 18 at the bottom to the fixing device 36.
On the transport path 32, the transfer device 42 and the image carrier 44 are located upstream of the fixing device 36, and the registration rollers 38 are located upstream of the transfer device 42 and the image carrier 44. Furthermore, discharge rollers 40 are provided on the transport path 32, near the discharge port 34.
Recording media 140 fed from the sheet feed cassette 22 in the sheet feed unit 18 by the pickup roller 24 are separated into individual media by the retard roller 26 and the feed roller 28. Then, each of the separated media is guided to the transport path 32, is temporarily stopped by the registration rollers 38, and is then caused to pass between the transfer device 42 and the image carrier 44 at a certain timing, during which a developer image is transferred to the medium. The transferred developer image is fixed to the medium by the fixing device 36, and the medium is discharged from the discharge port 34 to the discharge portion 16 by the discharge rollers 40.
Furthermore, as shown in
As shown in
In the first exemplary embodiment, the bearing member located at one end, which is an end closer to a cover part 116a (described below) having a restriction part 120, is the bearing member 128a, and the bearing member located at the other end, which is an end closer to a cover part 116b having no restriction part, is the bearing member 128b. Similarly, the fixing member located at one end is the fixing member 122a, and the fixing member located at the other end is the fixing member 122b. The fixing members 122a and 122b may be collectively referred to as the fixing members 122, and the bearing members 128a and 128b may be collectively referred to as the bearing members 128.
The heating roller 68 is a so-called hard roller, which does not have an elastic layer, and is formed of a cylindrical roller portion 84 and a releasing layer 90 covering or applied to the roller portion 84. The heating roller 68 is supported by the bearing members 128 at both ends so as to be capable of rotation in a direction of arrow A (see
The roller portion 84 is made of metal, such as iron, stainless steel, or aluminum. The releasing layer 90 is formed of an insulating and highly releasable material, such as PFA. A separation member 92 is in contact with the heating roller 68.
As shown in
The gear 124 provided at one end of the heating roller 68 transmits, to the heating roller 68, a rotational driving force exerted by a driving part, such as a motor, provided inside the image forming apparatus body 12. The gear 124 is, for example, a cylindrical helical gear, which has a helical tooth trace.
Furthermore, the gear 124 has a projecting portion 126 on the inner circumference, that is, on the circumference closer to the heating roller 68 (see
The fixing members 122, which are, for example, C rings, are attached to both ends of the heating roller 68, at predetermined positions, to keep the rotation position of the heating roller 68 within a predetermined position. The fixing members 122 are each provided at the corresponding end of the heating roller 68 in the longitudinal direction. In the first exemplary embodiment, the fixing member 122b at the other end is attached on the outer side of the gear 124, and the fixing member 122a at one end is provided on the outer side of the bearing member 128a, which is provided opposite from the gear 124. When a large displacement of the rotating heating roller 68 from the predetermined rotation position is likely to occur, the fixing member 122a and the bearing member 128a at one end come into contact with each other, or the gear 124 and the bearing member 128b at the other end come into contact with each other, reducing the displacement of the heating roller 68 from the rotation position and keeping the heating roller 68 at the predetermined position.
The heaters 86 are disposed inside the heating roller 68 and include, for example, two lamp heaters. A thermostat 94 is provided on the opposite side of the heating roller 68 from the endless belt 72 so as to face the heating roller 68. The heaters 86 may be known heaters, such as halogen lamp heaters or carbon lamp heaters.
The heaters 86 have, at one end and the other end in the axial direction (the longitudinal direction), supply parts 112a and 112b to which power is supplied through lead wires 114 connected to the inside of the image forming apparatus body 12. The supply parts 112a and 112b are covered, together with portions of the lead wires 114, by cover parts 116a and 116b.
The cover part at one end, which is a cover part having a restriction part 120 (described below) is the cover part 116a, and the cover part at the other end, which is a cover part having no restriction part 120 is the cover part 116b. Similarly, the supply part at one end is the supply part 112a, and the supply part at the other end is the supply part 112b. The supply parts 112a and 112b may be collectively referred to as the supply parts 112, and the cover parts 116a and 116b may be collectively referred to as the cover parts 116.
The cover parts 116 are so-called insulators covering the supply parts 112 so as to be integral therewith. The cover parts 116 are formed of a strong, heat-proof material, such as ceramics.
The cover parts 116 at both ends have different shapes. The cover part 116a at one end, that is, the cover part 116a located opposite from the gear 124 when assembled into the heating unit 66 in the first exemplary embodiment, has the restriction part 120. The cover part 116b opposite from the cover part 116a having the restriction part 120 does not have the restriction part.
The cover part 116a according to the first exemplary embodiment has a projecting portion 118 projecting, together with the lead wires 114, in a direction intersecting the longitudinal direction of the heaters 86 (e.g., the vertical direction) and thus has an L shape. A surface of the projecting portion 118 of the cover part 116a facing the heating roller 68 serves as the restriction part 120.
The projecting portion 118 extends to, at least, a position at substantially the same height as the roller portion 84 of the heating roller 68. More specifically, the projecting portion 118 projects to a position at which the restriction part 120 of the projecting portion 118 comes into contact with the end of the heating roller 68 when the heating roller 68 has moved in the rotation-axis direction. The projecting portion 118 may be higher than the heating roller 68. The restriction part 120 formed on the cover part 116a will be described in detail below.
As shown in
When the pressure part 70 is pressed against the heating roller 68, a pressure area 102 is formed by the pressure member 108 attached to the carrier 100. The pressure part 70 presses the pressure member 108 toward the heating roller 68, in cooperation with the carrier 100 and the frames 78 and 79.
The carrier 100 is formed of a resin material, such as a heat-resistant liquid crystal polymer (LCP). As shown in
The pressure member 108 has substantially the same length as the carrier 100 in the longitudinal direction and is formed in a substantially rectangular-parallelepiped shape from a heat-resistant resin material, such as silicone rubber.
As shown in
As shown in
The endless belt 72 is provided between the heating roller 68 and the pressure part 70 and travels in the direction of arrow C so as to follow the rotation of the heating roller 68 (see
An inlet chute 96 is provided upstream of the pressure area 102. A recording medium 140 transported in the direction of arrow B is guided into the inlet chute 96, and the distal end of the recording medium 140 is guided to the pressure area 102 (see
Next, the restriction part 120 provided on the cover part 116a of the heating unit 66 in the fixing device 36 according to the first exemplary embodiment will be described.
As shown in
If the fixing member 122b near the gear 124 falls off while the image forming apparatus 10 is used, that is, while the heating roller 68 is rotating, the rotating heating roller 68 moves away from the fixing member 122b, that is, away from the gear 124. When the gear 124 is a helical gear, the heating roller 68 easily moves due to a thrust force (a force in the axial direction) along the shape of the obliquely extending (helical) teeth.
In this case, if the fixing member 122b comes off from the heating roller 68 when a cover part 116a′ does not have the restriction part 120 as in a heating unit 66′ of a fixing device 36′ shown in
In contrast, as in the heating unit 66 according to the first exemplary embodiment shown in
Furthermore, because the movement of the heating roller 68 is restricted by the restriction part 120 of the projecting portion 118, contact with the lead wires 114 extending and guided from the supply part 112a is reduced.
When the fixing member 122a on the opposite side of the heating roller 68 from the gear 124 comes off, the projecting portion 126 formed on the inner circumference of the gear 124 engages with the end of the key groove 110 formed in the heating roller 68, reducing the movement of the heating roller 68 toward the gear 124 (see
Furthermore, although the cover parts 116 are provided at both ends of the heating unit 66 in the longitudinal direction of the heaters 86, the restriction part 120 is provided only on one of the cover parts 116. Thus, the cover part opposite from the cover part having the restriction part does not have the restriction part.
As shown in
Modification
In the first exemplary embodiment, although the projecting portion 118 of the cover part 116a having the restriction part 120 is provided so as to project only in the direction in which the lead wires 114 extend, it is also possible to form another projecting portion 118A projecting in the direction opposite to the direction in which the lead wires 114 extend and are guided, thus forming a T shape, as in a cover part 116Aa of a heating unit 66A shown in
With this configuration, the projecting portions 118 and 118A projecting at both sides of the cover part 116Aa covering the supply part 112Aa respectively have the restriction parts 120 and 120A for restricting the movement of the heating roller 68. Hence, even the heating roller 68 that has moved can be stably rotated. Furthermore, by increasing the number of the restriction parts 120 and 120A with which the heating roller 68 comes into contact, damage to the cover part 116Aa is reduced.
The number of projecting portions formed on the cover part may be three or more, or the projecting portion may have a circular shape so as to surround the cover part.
In the first exemplary embodiment, the restriction part 120 is provided on the cover part 116a that covers the supply part 112a having the projecting portion 118 projecting with the lead wires 114. In the second exemplary embodiment, a cover part 116Ba of a heating unit 66B has a projecting portion 119B projecting in a direction different from the direction in which the lead wires 114 extending from a supply part 112Ba are guided, and a restriction part 120B is provided in the projecting portion 119B. The configurations the same as those in the first exemplary embodiment will be denoted by the same reference signs, and detailed descriptions thereof will be omitted.
For example, the lead wires 114 extend and are guided from the supply part 112Ba in the longitudinal direction of the heaters 86 (see
Specifically, as shown in
With this configuration, it is possible to freely set the direction in which the lead wires 114 are guided, even when the projecting portion 119B is formed on the cover part 116Ba.
Modification
Although the cover part 116Ba according to the second exemplary embodiment has one projecting portion 119B projecting in a direction intersecting the longitudinal direction of the heaters 86, as in a cover part 116Ca of a heating unit 66C shown in
With this configuration, the projecting portions 119B and 119C projecting at both sides of the cover part 116Ca have the restriction parts 120B and 120C that restrict the movement of the heating roller 68. Thus, even the heating roller 68 that has moved can be stably rotated. Furthermore, by increasing the number of the restriction parts 120B and 120C with which the heating roller 68 comes into contact, damage to the cover part 116Ca is reduced.
The number of projecting portions formed on the cover part may be three or more, or the projecting portion may have a circular shape so as to surround the cover part.
In the first exemplary embodiment and the modification of the first exemplary embodiment, the projecting portions 118 and 118A are formed integrally with the cover parts 116a and 116Aa, and in the second exemplary embodiment and the modification of the second exemplary embodiment, the projecting portions 119B and 119C are formed integrally with the cover parts 116Ba and 116Ca. The present invention is not limited to such configurations. As shown in
Specifically, in the third exemplary embodiment, as shown in
By fitting the hole 134 in the projecting portion 130 onto the projection 132 of the cover part 116Da, the projecting portion 130 is attached to the cover part 116Da. At this time, a surface of the projecting portion 130 facing the heating roller 68 constitutes a restriction part 120D.
In the third exemplary embodiment, although the cover part 116Da has the projection 132, and the projecting portion 130 has the hole 134, the cover part may have a hole, and the projecting portion may have a projection.
In this configuration, compared with a case where the cover part and the projecting portion that form the restriction part are not formed of different members, the shape of the cover part is simple, and thus, manufacturing is easy.
The cover part 116Da and the projecting portion 130 do not necessarily have to be joined together by using the projection 132 and the hole 134 and may be joined together by another joining method, such as screwing, welding, or the like.
In the third exemplary embodiment, although one projecting portion 130 is attached to the cover part 116Da, multiple projecting portions may be attached to the cover part 116Da.
The foregoing description of the exemplary embodiments of the present invention has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, thereby enabling others skilled in the art to understand the invention for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.
Number | Date | Country | Kind |
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2017-146676 | Jul 2017 | JP | national |
Number | Name | Date | Kind |
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5115119 | Adachi et al. | May 1992 | A |
7920815 | Miyake | Apr 2011 | B2 |
Number | Date | Country |
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3-27074 | Feb 1991 | JP |
2012123421 | Jun 2012 | JP |
Number | Date | Country | |
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20190033760 A1 | Jan 2019 | US |