JP2004039502A - Heating roll unit and image forming device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate replacement of a heating roll and replacement of a heater, and to reduce dispersion of a mounting position of the heater in the axial direction of the heating roll with respect to the heating roll. <P>SOLUTION: This heating roll unit has: a pair of cylindrical bearings 11F and 11R respectively connected to both axial ends of the cylindrical heating roll Fh with the heaters h1 and h2 housed inside; and a pair of mounting members MF and MR respectively mounted to respective outer races of the pair of bearings 11F and 11R, and having heater support parts 41d and 43d for supporting ends of the heaters h1 and h2. The pair of mounting members MF and MR are formed into a pressing roll unit UF composed of: the first mounting member MF composed by installing a heater positioning member for executing the positioning in the slide direction of outer ends of the heaters h1 and h2; and the second mounting member MR for supporting a positioning elastic pressing member for pressing the heaters h1 and h2 toward the first mounting member MF. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a heating roll unit and a fixing device of an electrophotographic image forming apparatus such as a copying machine, a printer, and a facsimile, and more particularly, to a heating roll unit that can easily replace a heating roll and a heater disposed therein. The present invention relates to an image forming apparatus including the heating roll unit.
[0002]
[Prior art]
The following technology is known as a technology that can safely and easily replace a heating roll of a fixing device of an image forming apparatus, a heater disposed inside the heating roll, and the like.
(J01) Technology described in Japanese Patent Application Laid-Open No. 6-11984 In the fixing device of the image forming apparatus described in this publication, the heating roll of the fixing device is moved from the upper side to the lower pressing roll along the V-shaped guide groove. And set it in place.
[0003]
[Problems to be solved by the invention]
(Problems of the technology described in (J01) above)
In this case, since the pressure roll is below the insertion direction, it is difficult to dispose the positioning member that determines the stop position of the heating roll in the insertion direction. Therefore, the operation of setting the heating roll at a predetermined position cannot be said to be extremely simple.
Further, when the heating roll is temporarily placed on the floor after opening the package of the heating roll, there is a concern that the heating roll surface may be damaged. In addition, since the side plate for positioning the bearing of the heating roll is formed in a V-shape, the fixing roll axis is difficult to stabilize due to variations in parts and thermal expansion at the time of heating. There is also a problem that wrinkles and the like easily occur. Further, since the position of the heater in the axial direction of the heating roll is not stable, the heating value distribution of the heater in the axial direction tends to vary, and the surface temperature distribution tends to vary in each heating roll.
[0004]
Heater holding members are fixed to the outer peripheral portions of the bearings at both ends of the heating roll, and both ends of the heater arranged inside the heating roll are supported by the respective heater holding members. If the heater holding members rotate freely, the heater may be twisted and damaged. Therefore, it is necessary to adopt a configuration in which the heater is arranged along the axis of the heating roll, cylindrical insulators are attached to both ends of the heater, and the cylindrical insulator is rotatably supported by a heater holding member. . When a plurality of heaters are arranged inside the heating roll, a configuration is adopted in which both ends of the plurality of heaters are respectively connected to cylindrical insulators, and the cylindrical insulator is rotatably supported by a heater holding member. There is a need to.
When a heater having cylindrical insulators attached to both ends of the heater is used, there is a problem in that the cost increases because a special order product must be purchased.
[0005]
In view of the above circumstances, the present invention has the following contents (O01) to (O03) in a heating roll unit and a fixing device of an image forming apparatus.
(O01) To facilitate the work of replacing the heating roll and the work of replacing the heater.
(O02) To reduce variation in the mounting position of the heater with respect to the heating roll in the heating roll axis direction.
(O03) When arranging a plurality of heaters inside the heating roll, a commercially available heater can be used, and the work of attaching and detaching the heater is facilitated.
[0006]
[Means for Solving the Problems]
Next, a description will be given of the present invention which has solved the above-mentioned problem. Elements of the present invention include those in parentheses in which reference numerals of the elements of the embodiments are used in order to facilitate correspondence with the elements of the embodiments described later. Add it. The reason why the present invention is described in correspondence with the reference numerals of the embodiments described below is to facilitate understanding of the present invention, and not to limit the scope of the present invention to the embodiments.
[0007]
(The present invention)
In order to solve the above-mentioned problems, a heating roll unit according to the present invention includes the following components (A01) to (A04).
(A01) Cylindrical heating roll (Fh) accommodating heaters (h1, h2) inside; (A02) Cylindrical pair of bearings (11F) connected to both axial ends of the heating roll (Fh), respectively. , 11R), the pair of bearings (11F, 11R) having an inner race and an outer race, wherein the inner race is connected to an end of the heating roll (Fh).
(A03) A heater supporting portion mounted on each of the outer races of the pair of bearings (11F, 11R) and supporting an end of the heater (h1, h2) slidably in the axial direction of the heating roll (Fh). (41d, 42d, 43d, 44d), a pair of mounting members (MF, MR),
(A04) a first mounting member (MF) provided with a heater positioning member (41d) for positioning an outer end of the slidably supported heater (h1, h2) in a sliding direction; and the heater (h1). , H2) toward the first mounting member (MF), and a positioning elastic pressing member (45) for bringing the outer ends of the heaters (h1, h2) into contact with the heater positioning member (41d). A pair of mounting members (MF, MR) configured by a supporting second mounting member (MR);
[0008]
In the heating roll unit of the present invention provided with the above-mentioned constitutional requirements (A01) to (A04), the cylindrical heating roll (Fh) contains heaters (h1, h2) inside. In a pair of cylindrical bearings (11F, 11R) having an inner race and an outer race, the inner race is connected to both ends of a heating roll (Fh).
A pair of mounting members (MF, MR) mounted on the outer races of the pair of bearings (11F, 11R) respectively have heater support portions (41d, 42d, 43d, 44d), and the heaters (h1, The end of h2) is slidably supported in the axial direction of the heating roll (Fh).
The positioning elastic pressing member (45) supported by the second mounting member (MR) presses the heaters (h1, h2) toward the first mounting member (MF) to press the heaters (h1, h2). The heater positioning member (41d) provided on the first mounting member (MF) for bringing the outer end of the heater into contact with the heater positioning member (41d) is located outside the slidably supported heaters (h1, h2). Position the end in the sliding direction.
Therefore, the position of the heaters (h1, h2) inside the heating roll (Fh) in the axial direction of the heating roll is determined by the heater positioning member (41d), so that the heater (h1, h2) is held at a fixed position for each heating roll (Fh). Therefore, it is possible to manufacture a heating roll (Fh) having a uniform calorific value distribution in the axial direction.
[0009]
The heating roll unit of the present invention can have the following components (A01), (A02), (A03 '), (A05), and (A06).
(A01) Cylindrical heating roll (Fh) accommodating heaters (h1, h2) inside; (A02) Cylindrical pair of bearings (11F) connected to both axial ends of the heating roll (Fh), respectively. , 11R), the pair of bearings (11F, 11R) having an inner race and an outer race, wherein the inner race is connected to an end of the heating roll (Fh).
(A03 ') Heater support portions (41d, 42d, 43d, 44d) mounted on the outer races of the pair of bearings (11F, 11R) and supporting the ends of the heaters (h1, h2). A pair of mounting members (MF, MR),
(A05) the pair of mounting members (MF, MR) divided into a lower mounting member (41, 43) and an upper mounting member (42, 44) detachably connected,
(A06) Lower heater support portions (41d, 43d) provided on the lower mounting members (41, 43) and upper heater support portions (42d, 44d) provided on the upper mounting members (42, 44). And the heater support portions (41d, 42d, 43d, 44d) divided into two parts, and are integrally formed when the lower mounting members (41, 43) and the upper mounting members (42, 44) are connected. The heater supports (41d, 42d, 43d, 44d) to be connected.
[0010]
In the heating roll unit of the present invention provided with the above constitutional requirements (A05) and (A06), the pair of mounting members (MF, MR) are respectively connected to a lower mounting member (41, 43) and an upper mounting member (42, 42). 44), the heater support portion (41d, 42d, 43d, 44d) is divided into a lower heater support portion (41d, 43d) and an upper heater support portion (42d, 44d). . For this reason, the work of attaching the heater end to the pair of mounting members (MF, MR) is easy, and the work of replacing the heater is also easy.
[0011]
The heating roll unit of the present invention can have the following components (A01), (A02), (A03 '), and (A07).
(A01) Cylindrical heating roll (Fh) accommodating heaters (h1, h2) inside; (A02) Cylindrical pair of bearings (11F) connected to both axial ends of the heating roll (Fh), respectively. , 11R), the pair of bearings (11F, 11R) having an inner race and an outer race, wherein the inner race is connected to an end of the heating roll (Fh).
(A03 ') Heater support portions (41d, 42d, 43d, 44d) mounted on the outer races of the pair of bearings (11F, 11R) and supporting the ends of the heaters (h1, h2). A pair of mounting members (MF, MR),
(A07) When the heating roll unit (UF) is placed on the floor, the pair of mounting members (MF, MR) having different vertical shapes when the side placed on the floor is the lower side.
[0012]
In the heating roll unit of the present invention having the above-mentioned constitutional requirements (A07), when the heating roll unit (UF) is placed on the floor, the pair of mounting members (MF, MR) having different vertical shapes are used. Therefore, an operator who handles the heating roll unit (UF) can recognize at a glance the rotation angles of the pair of mounting members (MF, MR) at both ends of the heating roll (Fh). For this reason, the pair of mounting members (MF, MR) can be handled so that their relative rotation angles do not increase. In this case, since the pair of mounting members (MF, MR) can be prevented from rotating at a relatively large rotation angle, the ends of the heaters (h1, h2) are connected to the mounting members (MF, MR). , It is possible to prevent the heaters (h1, h2) from being greatly twisted. Therefore, breakage of the heaters (h1, h2) can be prevented.
[0013]
The heating roll unit of the present invention is characterized by having the following constituent requirements (A08).
(A08) A mounting member connecting member (51) for connecting the pair of mounting members so that they cannot rotate relative to each other.
In the heating roll unit having the above-mentioned constitutional requirements (A08), the pair of mounting members (MF, MR) at both ends of the heating roll (Fh) are connected to each other so as not to rotate relative to each other. The heaters (h1, h2) that are arranged and whose both ends are connected to the pair of mounting members (MF, MR) are not twisted. In this case, even if the ends of the heaters (h1, h2) are fixed to the mounting members (MF, MR), the heaters (h1, h2) are not twisted. Therefore, breakage of the heaters (h1, h2) can be prevented.
[0014]
The heating roll unit of the present invention having the above component (A07) can have the following component (A09).
(A09) The pair of mounting members having the heater support portions (41d, 42d, 43d, 44d) for supporting the ends of the heaters (h1, h2) at positions not coincident with the rotation axis of the heating roll (Fh). (MF, MR).
In the heating roll unit of the present invention having the above-mentioned constitutional requirements (A09), the heaters (h1, h2) can be rotated by connecting one end thereof to the center of the rotation axis of the heating roll (Fh). Since there is no need to support the heaters (h1, h2), the support structure at the ends of the heaters (h1, h2) is simplified. Further, since the commercially available heaters (h1, h2) can be used as they are, compared with a case where the ends of the heaters (h1, h2) are rotatably supported around the rotation center line of the heating roll (Fh). Manufacturing costs can be reduced.
[0015]
The heating roll unit of the present invention provided with the above-mentioned component (A09) can have the following component (A010).
(A010) The heaters (h1, h2) include a first heater (h1) and a second heater (h2) arranged in parallel, and end portions of the first heater (h1) and the second heater (h2). The pair of mounting members (MF, MR) having the heater support portions (41d, 42d, 43d, 44d) for supporting the heater.
In the heating roll unit of the present invention provided with the above-mentioned constitutional requirements (A010), a commercially available two heaters (h1, h2) can be used as they are, so that the ends of the heaters (h1, h2) can be used. The manufacturing cost can be reduced as compared with the case where the heating roll (Fh) is rotatably supported around the rotation center line.
[0016]
The heating roll unit of the present invention can have the following configuration requirements (A011).
(A011) A state in which the mounted members (41c, 43c) are stably mounted on a horizontal plane, and the mounted members (41c, 43c) are supported on the horizontal plane. The pair of mounting members (MF, MR) configured to hold the surface of the heating roll (Fh) away from the plane.
In the heating roll unit of the present invention having the above-mentioned constitutional requirement (A011), when the heating roll unit (UF) is placed on the floor, the surface of the heating roll (Fh) does not contact the floor, so that the heating roll (Fh) Surface damage can be prevented. Therefore, the handling operation of the heating roll unit (UF) is facilitated, so that the replacement of the heating roll (Fh) and the replacement of the heaters (h1, h2) are also facilitated.
[0017]
The heating roll unit of the present invention can have the following constituent requirements (A012).
(A012) The mounting member (MF, MR) having the handle (42c, 44c) that can be grasped by a worker by hand.
In the heating roll unit of the present invention provided with the above-mentioned constitutional requirements (A012), the handling operation of the heating roll unit (UF) is facilitated by using the handles (42c, 44c). Replacement and heater (h1, h2) replacement work are also facilitated.
[0018]
The heating roll unit of the present invention can have the following constituent requirements (A013).
(A013) The mounting member (41c) includes a mounting member (41c, 43c) and a handle (42c, 44c) arranged on opposite sides of the axis of the bearing (11F, 11R). , 43c) are the mounting members (MF, MR) configured to be stably mounted on a horizontal plane.
In the heating roll unit according to the present invention provided with the above-mentioned constitutional requirements (A013), the mounting members (MF, MR) are provided with the mounted members (41c, 43c) and the handles (42c, 44c) arranged on opposite sides. Since the handle (42c, 44c) is provided on the near side of the plane on which the heating roll unit (UF) is placed, the handle is easy to hold and easy to handle.
[0019]
The heating roll unit of the present invention can have the following component requirements (A014).
(A014) A mounting member side engaging portion (41b, 43b) for positioning with respect to the heating roll support frame (10F, 10R), and the mounting member side engaging portion (41b, 43b) supports the heating roll support. The pair of mounting members (MF, MR) connected to the heating roll support frames (10F, 10R) in a state of being engaged with frame side engaging portions (10Fb, 10Rb) provided on the frames (10F, 10R).
In the heating roll unit of the present invention having the above-mentioned constitutional requirement (A014), the heating roll is engaged by engaging the mounting member side engaging portions (41b, 43b) with the frame side engaging portions (10Fb, 10Rb). The positioning between the unit UF and the heating roll support frames (10F, 10R) can be easily performed.
[0020]
Since the image forming apparatus of the present invention includes the fixing device (F) having the heating roll unit (UF) of the present invention, handling of the heating roll unit (UF) is easy, and Replacement and replacement of the heaters (h1, h2) can be easily performed.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, specific examples (examples) of the embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to the following examples.
(Example)
To facilitate understanding of the following description, in the drawings, the front-rear direction is the X-axis direction, the left-right direction is the Y-axis direction, the up-down direction is the Z-axis direction, and arrows X, -X, Y, -Y, The directions or sides indicated by Z and -Z are front, rear, left, right, upper, lower, or front, rear, left, right, upper, and lower, respectively.
Also, in the figure, those with “•” in “を” mean an arrow pointing from the back of the paper to the front, and those with “x” in “○” indicate the front of the paper. From the back to the back.
[0022]
(Embodiment 1)
FIG. 1 is a longitudinal sectional view of an image forming apparatus provided with a first embodiment of a heating roll unit of the present invention.
In FIG. 1, an image forming apparatus U includes a digital copying machine U1 as an image forming apparatus main body having a platen glass (transparent document table) PG on an upper surface, and an automatic removably mounted on the platen glass PG. And a document feeder (automatic document feeder, ADF) U2.
The automatic document feeder U2 has a document feed tray TG1 on which a plurality of documents G to be copied are stacked. The plurality of documents G placed on the document feed tray TG1 are configured to sequentially pass through a copy position on the platen glass PG and be discharged to a document discharge tray TG2.
[0023]
The copier U1 includes a UI (user interface), an IIT (image input terminal) as an image reading unit, and an IOT (image output terminal) as an image recording operation unit sequentially arranged below the platen glass PG. And an IPS (image processing system) provided in the IIT or IOT.
An IIT serving as a document reading device arranged below the transparent platen glass PG on the upper surface of the copying machine main body U1 includes an exposure system registration sensor (platen registration sensor) Sp and an exposure optical system A arranged at a platen registration position (OPT position). have.
[0024]
The movement and stop of the exposure optical system A are controlled by the detection signal of the exposure system registration sensor Sp, and are always stopped at the home position.
In the case of the ADF mode in which copying is performed using the automatic document feeder (auto document feeder) U2, the exposure optical system A stops at the home position and sequentially passes through the copying position on the platen glass PG. The original G is exposed.
In a platen mode in which the operator places a document G on the platen glass PG by hand and performs copying, the exposure optical system A performs exposure scanning of the document on the platen glass PG while moving.
The reflected light from the exposed document G passes through the exposure optical system A and is converged on a CRD (solid-state imaging device). The CRD converts the original reflected light converged on the imaging surface into an electric signal.
[0025]
The IPS converts the read image signal input from the CRD into a digital image write signal and outputs the digital image write signal to the laser drive signal output device DL of the IOT.
The laser drive signal output device DL outputs a laser drive signal corresponding to the input image data to an ROS (optical writing scanning device or image writing device).
[0026]
The photosensitive drum PR (toner image carrier of the present embodiment) disposed below the ROS rotates in the direction of the arrow Ya. After the surface of the photoconductor drum PR is charged to, for example,-(minus) 700 V by a charger (charge roll) CR in a charging area Q0, the laser beam of the ROS (image writing apparatus) is placed at a latent image writing position Q1. Exposure scanning is performed by L to form an electrostatic latent image of, for example, -300V. The formation of the latent image on the photosensitive drum PR by the laser beam L is started after a predetermined period of time elapses after the sheet sensor (not shown) detects the leading edge of the sheet. The surface of the photoreceptor drum PR on which the electrostatic latent image is formed rotates and passes through the development area Q2 and the transfer area Q4 sequentially.
[0027]
The developing device D that develops the electrostatic latent image in the developing area Q2 transports a developer including a toner having a negative polarity (−) and a carrier having a positive polarity to the developing area Q2 by a developing roll R0. The electrostatic latent image passing through the area Q2 is developed into a toner image Tn.
The transfer roll TR facing the photoconductor drum PR in the transfer area Q4 is a member that transfers the toner image on the surface of the photoconductor drum PR onto the paper S, and the charging polarity of the developing toner used in the developing device D. Is supplied from the power supply circuit E. The power supply circuit E is controlled by a controller C.
[0028]
The paper S stored in the paper feed trays TR1 to TR3 or the paper S temporarily stored in the reversing tray TR0 used in the case of double-sided recording is conveyed to the transfer area Q4 by the sheet supply path SH1. That is, the paper S on each of the trays TR0 to TR3 is taken out by the pickup roll Rp at a predetermined timing, separated one by one by the separating roll Rs, and transported to the registration roll Rr by a plurality of transport rolls Ra.
The sheet S conveyed to the registration roll Rr is conveyed from the pre-transfer sheet guide SG1 to the transfer area Q4 at the same time that the toner image on the photosensitive drum PR moves to the transfer area Q4.
[0029]
The toner image Tn developed on the surface of the photoconductor drum PR is transferred to the sheet S by the transfer roll TR in the transfer area Q4. After the transfer, the surface of the photoreceptor drum PR is cleaned by the photoreceptor cleaner CL1 to remove the residual toner, and is then discharged by the photoreceptor static eliminator JL and then recharged by the charging roll CR.
[0030]
The sheet S to which the toner image has been transferred by the transfer roll TR in the transfer area Q4 is separated from the surface of the photoconductor drum PR, and is conveyed to the fixing area Q5 by the sheet guide SG2 and the sheet conveying belt BH. The sheet S passing through the fixing area Q5 is heat-fixed by the fixing device F.
[0031]
The switching gate GT1 disposed downstream of the fixing device F switches the conveying direction of the sheet S passing through the fixing device F to one of the sheet discharging path SH2 and the sheet reversing path SH3. The sheet S conveyed to the sheet discharge path SH2 is discharged to a discharge tray TRh by a plurality of transfer rolls Ra. In the case of double-sided copying, the sheet S to which the toner image on the first side has been transferred is reversed by the sheet reversing path SH3, and then re-transmitted to the transfer area Q4 through the sheet circulation path SH4, where the toner image is transferred to the second side. Is done.
The sheet transporting device SH is composed of the components indicated by the symbols SH1 to SH4, Rp, Rs, Rr, Ra, GT1, etc.
[0032]
(Fixing device)
FIG. 2 is a perspective view of the fixing device of FIG. 1 as viewed obliquely from the front.
FIG. 3 is a sectional view taken along line III-III of FIG.
FIG. 4 is a front view of the fixing device shown in FIG. 1 with a part of the case and mounting members mounted on both front and rear ends of the heating roll removed, showing a state in which the heating roll and the pressure roll are pressed against each other.
FIG. 5 is a diagram showing the rotatable front-side rotating substrate (front-side heating roll support frame) shown in FIG. 4 by a thick solid line.
FIG. 6 is a view showing a state in which the rotating substrate shown in FIG. 5 is rotated upward.
FIG. 7 is a view for explaining a method of mounting the heating roll unit on the front and rear rotating substrates (heating roll support frames) of the fixing device. It is a figure showing the state where a moving board was rotated up.
[0033]
2 to 4, the fixing device F has a horizontal base 1, and vertical J-shaped plates 2F and 2R (see FIGS. 6 and 7) are provided at both front and rear ends (see FIG. 2) of the base 1. Is provided.
6 and 7, the front J-shaped plate 2F has a right part 2Fa and a left part 2Fb, respectively, and the right part 2Fa extends above the left part 2Fb. A bearing receiving groove 2Fc is formed between the right part 2Fa and the left part 2Fb. The rear J-plate 2R is configured similarly to the front J-plate 2F. That is, the right portion 2Ra extends above the left portion 2Rb, and a bearing housing groove 2Rc (see FIG. 7) is formed between the right portion 2Ra and the left portion 2Rb.
[0034]
2 to 6, U-shaped guide substrates 3F and 3R are joined to lower outer surfaces of the front and rear J-shaped plates 2F and 2R. On the guide substrates 3F and 3R, bearing support portions 3Fa (see FIGS. 2 and 4) and 3Ra (see FIG. 3) are formed to open upward. The guide grooves 3Fa and 3Ra are grooves for guiding the bearings 4F and 4R (see FIG. 2) mounted on the outer end of the pressure roll Fp.
Rotating shafts 5F (see FIGS. 2 and 4) and 5R (see FIG. 3) are supported by the J-shaped plates 2F and 2R and the guide substrates 3F and 3R. Lifting levers 6F (see FIG. 2) and 6R (see FIG. 3) are rotatably supported at their right ends (Y ends), and cam followers 7F (see FIG. 2) are provided at the free ends of the lifting levers 6F and 6R. ), 7R (see FIG. 3) are rotatably supported.
[0035]
Lower ends of bearings 4F, 4R (see FIG. 2) guided by a pair of front and rear bearing support portions 3Fa (see FIG. 4), 3Ra (see FIG. 3) are supported by the lift levers 6F, 6R.
A camshaft 8 (see FIG. 2) extending in the X-axis direction (front-back direction) is rotatably supported by the J-shaped plates 2F and 2R, and the camshaft 8 has cams 8F (see FIG. 2) and 8R (see FIG. 2). 3) is attached. An elevating motor unit having a motor and a deceleration mechanism (not shown) supported on the rear side of the rear J-shaped plate 2R rotates the camshaft 8 and the cams 8F and 8R to move the cam followers 7F and 7R in the vertical direction. .
[0036]
When the cams 8F and 8R rotate to move the cam followers 7F and 7R and the lift levers 6F and 6R to the raised position, the pressure roll Fp moves to a position where it comes into pressure contact with the heating roll Fh. When the cams 8F and 8R rotate to lower the cam followers 7F and 7R, the pressure roll Fp is lowered and a gap of about 1 mm is formed between the pressure roll Fp and the heating roll Fh. It is configured.
[0037]
In FIG. 7, rotating substrates (heating roll support frames) 10F and 10R are rotatably supported on left side portions 2Fb and 2Rb of the J-type plates 2F and 2R by support shafts 9F and 9R. Since the rotating substrates 10F and 10R are connected by an upper connecting plate T (see FIGS. 2 and 3), the rotating substrates 10F and 10R and the upper connecting plate T and the like are rotated around the support shafts 9F and 9R. It is configured to rotate integrally.
A pair of front and rear bearing support grooves 10Fa, 10Ra (only 10Fa is shown in FIGS. 2 and 4) are formed in the rotary substrates 10F, 10R so as to open downward, and the bearing support grooves 10Fa, 10Ra have concave portions ( Frame-side engaging portions) 10Fb and 10Rb (only 10Fb is shown in FIGS. 2 and 4) are formed. Bearings 11F and 11R mounted on the heating roll Fh are fitted into the pair of front and rear bearing support grooves 10Fa and 10Ra.
[0038]
A rotation lever 12F that can rotate around a shaft 10Fc (see FIG. 4) is mounted on the rotation substrate 10F. A turning lever 12R (not shown) similar to the turning lever 12F is supported by the turning substrate 10R.
The bearings 11F and 11R at both ends of the heating roll Fh hold the bearings 10Fa and 10Ra. When the bearings 11F and 11R are mounted in the bearing support grooves 10Fa and 10Ra, the free ends of the rotating levers 12F and 12R are rotated by screws 13F and 13R (only 13F is shown in FIGS. 4 to 6). , 10R (see FIG. 7).
[0039]
2 to 4, an oil application roll 21 is rotatably supported on the J-shaped plates 2F and 2R. The oil application roll 21 has a metal roll 22 having a large number of holes and an oil-impregnated layer 23 on the outer peripheral surface thereof. The oil-impregnated layer 23 is covered with an oil supply control layer 24. The oil application roll 21 is in contact with the heating roll Fh, and the oil contained (filled) inside the oil application roll 21 is applied to the heating roll Fh via the oil application amount control layer 24.
[0040]
3 and 4, a web supply roll 25, a web take-up roll 26, and a web support roll 27 are rotatably supported on the rotary substrates 10F and 10R, and the web take-up roll 26 is mounted on the rotary substrate 10R. It is configured to rotate by driving of a web winding motor unit (not shown) supported on the rear side surface of the web.
A web 29 for wiping oil on the surface of the heating roll Fh is wound around the web supply roll 25. The web 29 is guided by a web support roll 27, is wound on a web winding roll 26, and remains on the surface of the heating roll Fh. Clean the oil etc.
[0041]
2 to 4, the J-plates 2F and 2R (see FIGS. 2 and 3) include pre-fixing paper guides 30 and 31 arranged upstream of the fixing area Q5 in the sheet conveyance direction, and fixing areas. The sheet peeling members 32 and 33 on the downstream side of Q5 are fixedly supported.
[0042]
(Heating roll unit)
FIG. 8 is a perspective view of the heating roll unit placed on the floor.
9 is an explanatory view of the heating roll unit, FIG. 9A is a right side view, FIG. 9B is a right side sectional view, FIG. 9C is a front view, FIG. 9D is a rear view, and FIG. 9E is a sectional view taken along the line IX-IXE of FIG. It is.
FIG. 10 is a plan sectional view of the heating roll unit, and is a sectional view taken along line XX of FIG. 9B.
[0043]
8, 9, and 10, the heating roll unit UF has a heating roll Fh. The heating roll Fh has a cylindrical heating roll main body 36. The heating roll main body 36 has a large-diameter central portion 36a at a central portion in the axial direction, a small-diameter front end portion 36b, and a small-diameter rear end portion 36c. A heat-resistant rubber layer 37 is formed on the outer peripheral surface of the large-diameter central portion 36a. The heating roll body 36 and the heat-resistant rubber layer 37 constitute a heating roll Fh.
Bearings (ball bearings) 11F and 11R are mounted on the small-diameter front end portion 36b and the small-diameter rear end portion 36c, respectively. The bearings 11F and 11R have an inner inner race and an outer outer race, and the small-diameter front ends 36b and 36c are inserted into the inner race. Ring-shaped flanges 11Fa and 11Ra are formed to protrude from the outer peripheral surface of the outer race.
A gear 38 is mounted on the outer end of the small diameter rear end 36c. The gear 38 meshes with a gear (not shown), and rotates integrally with the heating roll Fh when a rotational force is transmitted from the gear (not shown).
[0044]
In FIG. 10, two linear heaters (halogen heaters) h1 and h2 having different power consumptions are arranged inside the heating roll Fh, and heater terminals h1a, h1a and h1a are provided at both ends of the heaters h1 and h2. h2a and h2a are provided. Flexible external leads L1 and L2 are connected to the heater terminals h1a and h2a. Connection terminals L1a and L2a (see FIG. 11) are provided at the ends of the external lead wires L1 and L2. The connection terminals L1a and L2a are connected to a frame (not shown) of the image forming apparatus U or the fixing apparatus F. ) Is configured to be detachably connected to the power supply terminal provided in (1).
[0045]
(Front end mounting member (first mounting member) MF)
8 and 9, a front end mounting member MF is mounted on the axial front end of the heating roll Fh, and a rear end mounting member MR is mounted on the rear end. The front end mounting member MF has a front end lower mounting member 41 and a front end upper mounting member 42. The rear end mounting member MR has a rear end lower mounting member 43 and a rear end upper mounting member 44.
FIG. 11 is a perspective view of the front end portion of the heating roll unit as viewed from the front upper side with the front end upper mounting member of the heating roll unit omitted.
FIG. 12 is a perspective view of the front end portion of the heating roll unit as viewed from the front right upper side with the front end upper mounting member of the heating roll unit omitted.
FIG. 13 is a view of the front end of the heating roll unit as viewed from the upper right side.
[0046]
(Front end lower mounting member 41)
In FIGS. 8 to 13, the front lower end mounting member 41 is in contact with a front end contact portion 41 a that contacts along a front edge of a lower outer peripheral surface of the bearing 11 </ b> F and a rear end edge of a lower outer peripheral surface of the bearing 11 </ b> F. A rear end contact portion (mounting member side engaging portion) 41b. The rear end contact portion 41b has an outer peripheral covering portion 41b1 (see FIG. 9A). The outer peripheral covering portion 41b1 of the rear end contact portion 41b projects rearward (-X direction) from the front end contact portion 41a and covers the outer peripheral surface of the bearing 11F.
The rear end contact portion 41b having the outer peripheral covering portion 41b1 and the front end contact portion 41a are connected to the bearing 11F with the front and rear edges of the outer periphery of the bearing 11F sandwiched therebetween.
When the heating roll unit UF is mounted on the rotating substrate (heating roll supporting frame) 10F, the rear end contacting portion 41b having the outer peripheral covering portion 41b1 is provided with the concave portion (frame side engaging portion) 10Fb (FIG. 5). , (See FIG. 6). By fitting the rear end contact portion (mounting member side engaging portion) 41b and the concave portion (frame side engaging portion) 10Fb, the positioning of the heating roll unit UF with respect to the rotating substrate (heating roll support frame) 10F. Is performed.
[0047]
Further, the front end lower mounting member 41 has a stand (mounting member) 41c extending downward, and when the tip of the stand 41c is placed on the floor, the outer peripheral surface of the heating roll Fh is separated from the floor. It is configured as follows. At the upper end of the stand 41c of the lower front end mounting member 41, a heater supporting portion 41d is provided. The heater support portion 41d accommodates the heater terminals h1a and h2a of the heaters h1 and h2 so as to be slidable in the axial direction of the heating roll.
The upper end of the stand 41c is provided with connecting portions 41e, 41e projecting left and right, and the connecting portion 41e is formed with a screw hole 41f (see FIG. 11).
[0048]
(Front end upper mounting member 42)
In FIGS. 8 to 13, the front end upper mounting member 42 has a front end contact portion 42 a that contacts along the front end edge of the upper outer peripheral surface of the bearing 11 </ b> F and a rear end edge that contacts the rear end edge of the upper outer peripheral surface of the bearing 11 </ b> F. And an end contact portion 42b. In FIG. 13, the rear end contact portion 42b has an outer peripheral covering portion 42b1 that projects rearward from the front end contact portion 42a and covers the outer peripheral surface of the bearing 11F.
The front end contact portion 42a and the rear end contact portion 42b are connected to the bearing 11F so as to sandwich the front and rear edges of the outer periphery of the bearing 11F.
[0049]
The front end upper mounting member 42 has a semicircular handle 42c extending upward. A terminal accommodating portion 42d is provided at a lower end portion of the semicircular handle 42c of the front end upper mounting member 42. The terminal accommodating portion 42d overlaps the upper end of the heater support portion 41d of the lower front end mounting member 41, and accommodates the heater terminals h1a and h2a of the heaters h1 and h2 so as to be slidable in the axial direction of the heating roll.
At the lower end of the semicircular handle 42c, connecting portions 42e, 42e projecting left and right are provided, and a screw N (see FIG. 13) passing through a screw through hole of the connecting portion 42e is screwed into the screw hole 41f (see FIG. 13). 11), the lower front end mounting member 41 and the upper front end mounting member 42 are connected.
By connecting the front-end lower mounting member 41 and the front-end upper mounting member 42, the outer race of the bearing 11F is sandwiched, and the rotation of the front-end mounting member MF and the outer race is disabled.
[0050]
(Rear end mounting member MR)
FIG. 14 is an explanatory view of a connection structure between the rear end mounting member and the heater. FIG. 14A is a perspective view of the rear end of the heating roll unit viewed from the upper right side of the rear side without the rear upper mounting member of the heating roll unit. FIG. 14B is a perspective view of the leaf spring of FIG. 14A.
FIG. 15 is a bottom view of the heating roll unit.
[0051]
(Rear end lower mounting member 43)
8 to 10, 14 and 15, a rear end lower mounting member 43 of the rear end mounting member MR is in contact with a rear end abutting portion 43a abutting along a rear end edge of a lower outer peripheral surface of the bearing 11R. And a front end contact portion 43b that contacts the front end edge of the lower outer peripheral surface of the bearing 11R. The rear end contact portion (mounting member side engaging portion) 43b has an outer peripheral covering portion 43b1 (see FIG. 15) projecting rearward from the front end contact portion 43a and covering the outer peripheral surface of the bearing 11F.
The front end contact portion 43a and the rear end contact portion (mounting member side engaging portion) 43b are connected to the bearing 11F with the front and rear edges of the outer periphery of the bearing 11R sandwiched therebetween.
[0052]
The outer peripheral covering portion 43b1 of the front end contact portion (mounting member side engaging portion) 43b is provided so as to cover the outer peripheral surface of the bearing 11R, and the heating roll unit UF is connected to the rotating substrate (heating roll support frame). A member that fits into the concave portion (frame-side engaging portion) 10Rb (not shown, but similar to the concave portion 10Fb (see FIG. 7)) when mounted on the 10R. A heating roll for the rotating substrate (heating roll support frame) 10R is fitted by fitting the front end contact portion (mounting member side engaging portion) 43b and the concave portion (frame side engaging portion) 10Rb (not shown). The positioning of the unit UF is performed.
The rear end lower mounting member 43 has a stand (placed member) 43c extending downward. When the tip of the stand 43c is placed on the floor, the outer peripheral surface of the heating roll Fh is separated from the floor. It is configured to be. The gear 38 is housed inside the stand 43c of the rear end lower mounting member 43.
[0053]
A terminal accommodating portion 43d is provided on the rear side of the upper end of the stand 43c. The terminal accommodating portion 43d accommodates the heater terminals h1a and h2a of the heaters h1 and h2 slidably in the axial direction of the heating roll.
In FIG. 14, a pressing member (leaf spring) 45 that constantly presses the heater terminals h1a and h2a forward (X direction) is provided in the terminal accommodating portion 43d. The heater terminals h1a and h2a at the rear end of the heaters h1 and h2 are pressed forward by the spring. Therefore, the heater terminals h1a and h2a at the front end of the heaters h1 and h2 are held in a state of being pressed (contacted) by the front end wall of the heater support portion 41d shown in FIG. Therefore, the heater supporting portion 41d having the front end wall is configured as the heater positioning member 41d of the first embodiment. In the first embodiment, the positions of the heaters h1 and h2 in the longitudinal direction with respect to the heating roll Fh are always kept constant.
[0054]
In FIG. 14, a connection portion 43e projecting leftward (−Y direction) is provided at an upper end portion of the terminal accommodating portion 43d, and a screw hole 43f (see FIG. 14) is formed in the connection portion 43e. I have. A locking portion 43g (see FIG. 14A) is provided on the lower right side surface of the terminal housing portion 43d. The locking portion 43g is a portion that locks the locked portion when a claw-shaped locked portion 44g (see FIG. 15) of the rear upper mounting member 44 described later approaches from above.
[0055]
(Rear end upper mounting member 44)
8 to 10, 14 and 15, the rear end upper mounting member 44 is a rear end contact portion 44 a that contacts along the rear end (−X end) edge of the upper outer peripheral surface of the bearing 11 </ b> R, It has a front end contact portion 44b that comes into contact with the front end (X end) edge of the upper outer peripheral surface of the bearing 11R. The rear end contact portion 44a and the front end contact portion 44b are connected to the bearing 11R with the rear end edge and the front end edge of the outer periphery of the bearing 11R sandwiched therebetween.
[0056]
The rear end upper mounting member 44 has a handle 44c (see FIG. 9B) extending rearward. A terminal housing 44d (see FIG. 9) is provided below the handle 44c of the rear end upper mounting member 44. The terminal accommodating portion 44d overlaps the upper end of the terminal accommodating hole 43d of the rear lower attachment member 43 and accommodates the heater terminals h1a and h2a of the heaters h1 and h2 so as to be slidable in the heating roll axis direction.
At the lower end of the handle 44c, a connecting portion 44e (see FIG. 9D) protruding leftward is provided. The rear upper mounting member 44 is provided with a claw (locked portion) 44g (see FIG. 15) on the right side of the terminal housing portion 44d. When the rear-end upper mounting member 44 is placed on the upper side of the rear-end lower mounting member 43, the claw (locked portion) 44g is locked by the locking portion 43g (see FIG. 14A). The right portions of the lower end mounting member 43 and the rear upper mounting member 44 are connected. In this state, a screw N penetrating the screw through hole of the connecting portion 44e is screwed into the screw hole 43f (see FIG. 15), so that the rear end lower mounting member 43 and the rear end upper mounting member 44 are left-sided. Be linked.
By connecting the rear end lower mounting member 43 and the rear end upper mounting member 44, the outer race of the bearing 11R is sandwiched, and the rotation of the rear end mounting member MR and the outer race is disabled.
[0057]
Each of the mounting members 41, 42, 43, and 44 uses a molded product of PPS (polyphenylene sulfide) resin and has necessary heat resistance and rigidity.
[0058]
(Operation of Embodiment 1)
In the image forming apparatus according to the first embodiment of the present invention having the above configuration, a cylindrical heating roll Fh, a pair of cylindrical bearings 11F and 11R mounted on both ends in the axial direction, and the pair of bearings A heating roll unit UF is configured by mounting members MF and MR mounted on the outer races 11F and 11R, and heaters h1 and h2 disposed inside the heating Fh and having both ends supported by the mounting members MF and MR. I have.
[0059]
Both ends of the heaters h1, h2 are slidably supported in the axial direction of the heating roll Fh by heater support portions 41d, 43d of a pair of mounting members MF, MR, and rear ends of the heaters h1, h2 are provided. The leaf spring 45 (see FIG. 14) supported by the heater support portion 43d of the rear second mounting member MR pushes forward. The front ends of the heaters h1 and h2 are held in a state of being in contact with the heater positioning member 41d of the heater supporting portion 41d of the front first mounting member MF.
Therefore, the heaters h1 and h2 inside the heating roll Fh are held at a fixed position for each heating roll Fh because the position in the heating roll axial direction is determined by the heater positioning member 41d. Therefore, it is possible to manufacture the heating roll Fh having a uniform calorific value distribution in the axial direction.
[0060]
In a state in which the pair of mounting members MF and MR are divided into lower mounting members 41 and 43 and upper mounting members 42 and 44, respectively, the heater support portions 41d, 42d, 43d and 44d are connected to the lower heater support portions. 41d, 43d and upper heater support portions 42d, 44d. For this reason, the work of attaching the heater end to the pair of mounting members MF and MR is easy, and the work of replacing the heater is also easy.
[0061]
When the heating roll unit UF is placed on the floor, the pair of mounting members MF and MR having different shapes in the vertical direction are used, so that an operator who handles the heating roll unit UF requires both ends of the heating roll Fh. The rotation angles of the pair of mounting members MF, MR of the part can be recognized at a glance. Therefore, the pair of mounting members MF and MR can be handled so that their relative rotation angles do not increase. In this case, it is possible to prevent the pair of mounting members MF and MR from rotating at a relatively large rotation angle, so that even if the ends of the heaters h1 and h2 are fixed to the mounting members MF and MR. And the heaters h1 and h2 can be prevented from being greatly twisted. Therefore, breakage of the heaters h1 and h2 can be prevented.
[0062]
Since it is not necessary to rotatably support the ends of the heaters h1 and h2 about the rotation axis of the heating roll Fh, the support structure of the ends of the heaters h1 and h2 is simplified. Further, since the commercially available heaters h1 and h2 can be used as they are, the manufacturing cost can be reduced as compared with a case where the ends of the heaters h1 and h2 are rotatably supported around the rotation center line of the heating roll Fh. Can be.
[0063]
When the heating roll unit UF is placed on the floor, the surface of the heating roll Fh does not contact the floor, so that the surface of the heating roll Fh can be prevented from being damaged. Further, by performing the work by holding the handles 42c, 44c arranged on the opposite side to the mounted members 41c, 43c, the handling work of the heating roll unit UF is facilitated. The replacement work of h1 and h2 is also facilitated.
Further, by engaging the mounting member-side engaging portions 41b, 43b with the frame-side engaging portions 10Fb, 10Rb, the positioning between the heating roll unit UF and the heating roll support frames 10F, 10R can be easily performed. it can.
[0064]
(Embodiment 2)
FIG. 16 is an explanatory view of Embodiment 2 of the heating roll unit of the present invention.
In the description of the second embodiment of the heating roll unit UF of FIG. 16, components corresponding to the components of the heating roll unit UF of the first embodiment are denoted by the same reference numerals, and overlapping detailed description is omitted. I do.
In FIG. 16, the heating roll unit UF according to the second embodiment includes a connecting shaft (mounting member connecting member) 51 that connects the front upper mounting portion 42 of the front mounting member MF and the rear upper mounting member 44 of the rear mounting member MR. Are linked by As a connection structure between the both ends of the connection shaft 51 and the front-end upper mounting portion 42 and the rear-end upper mounting member 44, various conventionally known connection structures (connection with an adhesive, connection with a screw, etc.) can be adopted. It is.
Other configurations of the heating roll unit UF of the second embodiment are the same as those of the heating roll unit of the first embodiment.
[0065]
(Operation of Embodiment 2)
In the heating roll unit UF of the second embodiment, since the front end mounting member MF and the rear end mounting member MR are connected by the connecting shaft, the front end mounting member MF and the rear end mounting member MR can freely rotate with respect to each other. There is no. For this reason, it is possible to prevent an excessive torsion force from acting on the heaters h1 and h2 held by the front end mounting member MF and the rear end mounting member MR, and to prevent the heaters h1 and h2 from being twisted and damaged. Can be. Therefore, a commercially available heater can be used without paying attention to handling.
[0066]
(Example of change)
As mentioned above, although the Example of this invention was described in full detail, this invention is not limited to the said Example, Various changes are made within the range of the gist of this invention described in the claim. It is possible. Modified embodiments of the present invention are exemplified below.
(H01) The pressing member (leaf spring) 45 can be provided on the front end mounting member MF without being provided on the rear end mounting member MR. In this case, the heater positioning member is not provided on the front end mounting member MF, and the rear end is not provided. It can be provided on the mounting member MR.
[0067]
【The invention's effect】
The above-described heating roll unit and image forming apparatus of the present invention can provide the following effects (E01) to (E03).
(E01) The replacement of the heating roll and the replacement of the heater can be easily performed.
(E02) Variation in the mounting position of the heater with respect to the heating roll in the heating roll axis direction can be reduced.
(E03) When arranging a plurality of heaters inside the heating roll, a commercially available heater can be used, and the heater can be easily attached and detached.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of an image forming apparatus including a heating roll unit according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the fixing device of FIG. 1 as viewed obliquely from the front.
FIG. 3 is a sectional view taken along line III-III of FIG. 2;
FIG. 4 is a front view of the fixing device shown in FIG. 1 with a part of the case and mounting members mounted on both front and rear ends of the heating roll removed, showing a press-contact state between the heating roll and the pressure roll. is there.
FIG. 5 is a diagram showing the rotatable front-side rotating substrate (front-side heating roll support frame) shown in FIG. 4 by a thick solid line.
FIG. 6 is a view showing a state in which the turning substrate shown in FIG. 5 is turned upward.
FIG. 7 is an explanatory view of a method of mounting a heating roll unit on a rotating substrate (heating roll support frame) on the front side and the rear side of the fixing device, and illustrates J-type plates 2F and 2R and front and rear sides supported by the J-type plates. FIG. 9 is a diagram illustrating a state in which a rear rotating substrate is rotated upward.
FIG. 8 is a perspective view of a heating roll unit placed on a floor.
9 is an explanatory view of a heating roll unit, FIG. 9A is a right side view, FIG. 9B is a right side sectional view, FIG. 9C is a front view, FIG. 9D is a rear view, and FIG. 9E is IXE- of FIG. 9A. It is a IX line sectional view.
FIG. 10 is a plan sectional view of the heating roll unit, and is a sectional view taken along line XX of FIG. 9B.
FIG. 11 is a perspective view of the front end portion of the heating roll unit viewed from above from the front, omitting a front end upper mounting member of the heating roll unit.
FIG. 12 is a perspective view of the front end portion of the heating roll unit as viewed from the front right upper side, omitting a front end upper mounting member of the heating roll unit.
FIG. 13 is a view of the front end of the heating roll unit as viewed from the upper right side.
FIG. 14 is an explanatory view of a connection structure between a rear end mounting member and a heater, and FIG. 14A omits a rear end upper mounting member of a heating roll unit and raises a rear end of a heating roll unit to a rear right upper side; FIG. 14B is a perspective view of the leaf spring of FIG. 14A.
FIG. 15 is a bottom view of the heating roll unit.
FIG. 16 is an explanatory view of Embodiment 2 of the heating roll unit of the present invention.
[Explanation of symbols]
Fh: heating roll,
h1, h2 ... heaters,
MF, MR: mounting members,
MF: first mounting member,
MR: second mounting member,
UF: heating roll unit,
10F, 10R: heating roll support frame,
10Fb, 10Rb ... frame side engaging portion,
11F, 11R ... bearing,
41, 43 ... lower mounting member,
41b, 43b: mounting member side engaging portion,
41c, 43c: Member to be placed,
41d: heater support (lower heater support, heater positioning member)
42d, 43d, 44d: heater support,
41d, 43d: lower heater support,
42, 44 ... upper mounting member,
42c, 44c ... handle,
45 Elastic pressing member for positioning (leaf spring)

Claims (11)

A heating roll unit comprising the following components (A01) to (A04):
(A01) a cylindrical heating roll accommodating a heater inside,
(A02) A pair of cylindrical bearings respectively connected to both ends in the axial direction of the heating roll, the bearing having an inner race and an outer race, and the pair of inner races being connected to ends of the heating roll. Bearings,
(A03) a pair of mounting members each having a heater supporting portion mounted on each of the outer races of the pair of bearings and supporting an end of the heater so as to be slidable in an axial direction of a heating roll;
(A04) a first mounting member provided with a heater positioning member for positioning an outer end portion of the slidably supported heater in a sliding direction, and pressing the heater toward the first mounting member to perform the positioning. A pair of mounting members configured by a second mounting member that supports a positioning elastic pressing member that causes an outer end of the heater to abut on the heater positioning member. A heating roll unit comprising the following constitutional requirements (A05) and (A06):
(A01) a cylindrical heating roll accommodating a heater inside,
(A02) A pair of cylindrical bearings respectively connected to both ends in the axial direction of the heating roll, the bearing having an inner race and an outer race, and the pair of inner races being connected to ends of the heating roll. Bearings,
(A03 ′) a pair of mounting members each having a heater supporting portion mounted on each of the outer races of the pair of bearings and supporting an end of the heater;
(A05) the pair of mounting members divided into a lower mounting member and an upper mounting member that are detachably connected,
(A06) The heater support portion divided into a lower heater support portion provided on the lower mounting member and an upper heater support portion provided on the upper mounting member, wherein the lower mounting member and the upper The heater support unit integrally connected when the mounting member is connected. A heating roll unit having the following constitutional requirements (A07);
(A01) a cylindrical heating roll accommodating a heater inside,
(A02) A pair of cylindrical bearings respectively connected to both ends in the axial direction of the heating roll, the bearing having an inner race and an outer race, and the pair of inner races being connected to ends of the heating roll. Bearings,
(A03 ′) a pair of mounting members each having a heater supporting portion mounted on each of the outer races of the pair of bearings and supporting an end of the heater;
(A07) When the heating roll unit is placed on the floor, the pair of mounting members differ in vertical shape when the side placed on the floor is the lower side. The heating roll unit according to any one of claims 1 to 3, wherein the heating roll unit has the following configuration requirements (A08).
(A08) A mounting member connecting member that connects the pair of mounting members so that they cannot rotate relative to each other. The heating roll unit according to claim 3, comprising the following constituent requirements (A09):
(A09) The pair of mounting members having the heater supporting portion for supporting an end portion of the heater at a position not coinciding with a rotation axis of a heating roll. The heating roll unit according to claim 5, wherein the heating roll unit has the following configuration requirements (A010).
(A010) The pair of mounting members, wherein the heater has a first heater and a second heater arranged in parallel, and has the heater support portion that supports end portions of the first heater and the second heater. The heating roll unit according to any one of claims 1 to 6, wherein the heating roll unit has the following configuration requirements (A011).
(A011) A mounting member is provided to be stably mounted on a horizontal plane, and the heating roll surface separates from the flat surface when the mounting member is supported on the horizontal plane. The pair of mounting members configured to be held in a state of being held. The heating roll unit according to any one of claims 1 to 7, wherein the heating roll unit has the following configuration requirements (A012).
(A012) The mounting member having a handle portion that can be grasped by a worker by hand. The heating roll unit according to any one of claims 1 to 8, wherein the heating roll unit has the following configuration requirements (A013):
(A013) It has a placing member and a handle arranged on opposite sides with respect to the axis of the bearing, and the placing member is placed in a stable state on a horizontal plane. Said mounting member. The heating roll unit according to any one of claims 1 to 6, wherein the heating roll unit has the following configuration requirements (A014).
(A014) A mounting member side engaging portion for positioning with respect to the heating roll support frame, wherein the mounting member side engaging portion is engaged with a frame side engaging portion provided on the heating roll support frame. The pair of mounting members connected to the heating roll support frame. An image forming apparatus having a fixing device provided with the heating roll unit according to claim 1.

Images