JP2021110853A - Image forming apparatus - Google Patents

Abstract

To provide a method for stabilizing the behavior of a recording material on the upstream of a transfer unit with respect to a conveyance direction of the recording material.SOLUTION: An image forming apparatus A has: an image carrier 1; transfer means 4; a first guide 8 and a second guide 11 that guide a recording material conveyed to a transfer unit on the upstream of the transfer unit with respect to a conveyance direction of the recording material, the first guide and the second guide being arranged such that the recording material can pass between the first guide and the second guide and configured to be contactable with the recording material conveyed to the transfer unit at a plurality of different positions with respect to the conveyance direction of the recording material; and urging means that urges the second guide in a direction directed to the first guide. The second guide is provided with a first contact part that is in contact with the first guide and is pressed toward the first guide by the second guide being urged by the urging means, and a second contact part that is located downstream of the first contact part.SELECTED DRAWING: Figure 1

Description

The present invention relates to an image forming apparatus such as a printer, a copier, and a facsimile apparatus using an electrophotographic system or an electrostatic recording system.

Conventionally, in an image forming apparatus using an electrophotographic method or the like, a toner image is formed on an image carrier such as a photosensitive drum, and the toner image is transferred from the image carrier to a recording material such as recording paper at a transfer unit. The transfer portion is formed by contacting, for example, an image carrier and a transfer member such as a transfer roller. Then, a transfer guide for guiding the recording material to be transferred to the transfer unit is provided upstream of the transfer unit in the transfer direction of the recording material.

FIG. 10 is a cross-sectional view of the vicinity of the transfer portion in an example of the conventional image forming apparatus. The electrostatic image formed on the photosensitive drum 101 is developed by supplying toner by the developing roller 102, and a toner image is formed on the photosensitive drum 101. The toner image formed on the photosensitive drum 101 is a recording material that is sandwiched and conveyed between the photosensitive drum 101 and the transfer roller 103 by the action of the transfer roller 103 that abuts on the photosensitive drum 101 to form the transfer portion 104. Transferred to P. A transport guide 112 is provided upstream of the transfer unit 104 in the transport direction of the recording material P to contact the recording material P transported to the transfer unit 104 and guide the recording material P. The transport guide 112 has a first guide 108 arranged on the photosensitive drum 101 side and a second guide 111 arranged on the transfer roller 103 side facing the first guide 108. The first guide 108 is fixed to a first frame (not shown) fixed to the main body of the image forming apparatus, and the second guide 111 is movable (for example, rotatable) with respect to the first frame. ) Is fixed to the second frame 113 or the like.

In the conventional configuration as described above, since the first guide 108 and the second guide 111 are fixed to different frames, the positional relationship between the first guide 108 and the second guide 111 varies. It can grow.

On the other hand, there is known a configuration in which the second guide is abutted against the first guide at one location related to the transport direction of the recording material and is urged by a spring (Patent Document 1).

Japanese Unexamined Patent Publication No. 9-106125

In recent years, the speed of image forming apparatus has been increasing. In an image forming apparatus having a high transfer speed of the recording material, the image may be affected by a slight behavior of the recording material in the vicinity of the upstream of the transfer unit with respect to the transfer direction of the recording material. The behavior of the recording material in the vicinity of the upstream of the transfer unit with respect to the transport direction of the recording material is, for example, an operation in which the recording material moves in a direction intersecting the surface (paper surface) of the recording material. In particular, in an image forming apparatus that employs a jumping development method, the developing unit is affected by even the slightest behavior of the recording material, and image distortion such as image blurring tends to occur.

Therefore, an object of the present invention is to stabilize the behavior of the recording material upstream of the transfer unit with respect to the transport direction of the recording material.

The above object is achieved by the image forming apparatus according to the present invention. In summary, the present invention relates to an image carrier that supports a toner image, a transfer means that transfers a toner image from the image carrier to a recording material at the transfer unit, and upstream of the transfer unit in terms of the transport direction of the recording material. The first and second guides are arranged in the above and guide the recording material to be conveyed to the transfer unit, so that the recording material can pass between the first guide and the second guide. The first guide and the second guide are arranged so as to face each other so that the recording material transported to the transfer unit can be contacted at a plurality of different positions with respect to the transport direction of the recording material. The second guide has a first and second guides and an urging means for urging the second guide in a direction toward the first guide, and the second guide corresponds to the first guide. The first contact portion, which is in contact with the second guide and is pressed toward the first guide by being urged by the urging means, and the first contact portion with respect to the transport direction of the recording material. This is an image forming apparatus provided with a second contact portion located downstream of the contact portion.

According to the present invention, the behavior of the recording material upstream of the transfer unit with respect to the transport direction of the recording material can be stabilized.

It is sectional drawing of the main part of an image forming apparatus. It is a side view of the vicinity of the transport guide at the time of transporting the recording material. It is an enlarged side view in the vicinity of a transport guide. It is a perspective view of a transport guide. It is an enlarged perspective view of the end part of a transport guide. It is a perspective view in the unit state of a transfer frame. It is sectional drawing side view for demonstrating the opening and closing operation of a transfer frame. It is sectional drawing side view for demonstrating the opening and closing operation of a transfer frame. It is sectional drawing side view for demonstrating the opening and closing operation of a transfer frame. It is sectional drawing of an example of the conventional transport guide.

Hereinafter, the image forming apparatus according to the present invention will be described in more detail with reference to the drawings.

[Example 1]
1. 1. Overall Configuration and Operation of the Image Forming Device FIG. 1 is a cross-sectional view showing the configuration of a main part of the image forming apparatus A of this embodiment (a cross section substantially orthogonal to the rotation axis direction of the photosensitive drum 1 described later). The image forming apparatus A of this embodiment is a laser beam printer using an electrophotographic method.

The photosensitive drum 1, which is a rotatable drum-shaped (cylindrical) photoconductor (electrophotographic photosensitive member) as an image carrier that supports a toner image, has a predetermined peripheral speed (process speed) in the direction of arrow R1 in the drawing. It is driven to rotate with. The surface (outer peripheral surface) of the rotating photosensitive drum 1 is uniformly charged by the charging roller 16, which is a roller-type charging member as a charging means. During the charging step, a predetermined charging voltage is applied to the charging roller 16. The surface of the charged photosensitive drum 1 is scanned and exposed by an exposure device (laser scanner device) 17 as an exposure means according to an image signal, and an electrostatic image (electrostatic latent image) is formed on the photosensitive drum 1. NS. The electrostatic image formed on the photosensitive drum 1 is developed (visualized) by supplying toner as a developer by a developing device 18 as a developing means, and a toner image (developer image) is formed on the photosensitive drum 1. Will be done. The developing apparatus 18 includes a developing container 18a for accommodating toner, a developing roller 2 as a developing agent carrier, and the like. The developing roller 2 is arranged close to or in contact with the surface of the photosensitive drum 1. The toner contained in the developing container 18a is supported on a rotating developing roller 2 and conveyed to a portion (development position) facing the photosensitive drum 1. Further, a predetermined developing voltage is applied to the developing roller 2 during the developing process. As a result, at the developing position, the toner moves (flys) from the developing roller 2 onto the photosensitive drum 1 according to the electrostatic image on the photosensitive drum 1, and adheres to the photosensitive drum 1 (jumping development method). In this embodiment, the exposed portion (image portion) on the photosensitive drum 1 whose absolute potential value is lowered by being exposed after being uniformly charged has the same polarity as the charging polarity of the photosensitive drum 1 (this embodiment). In the example, the charged toner adheres to the negative electrode (negative electrode property) (reversal development method).

A transfer roller 3, which is a roller-type transfer member as a transfer means, is arranged so as to face the photosensitive drum 1. The transfer roller 3 is pressed against the surface of the photosensitive drum 1 to form a transfer portion (transfer nip) 4 which is a contact portion between the photosensitive drum 1 and the transfer roller 3. The toner image formed on the photosensitive drum 1 is a transfer unit 4 composed of the photosensitive drum 1 and the transfer roller 3, and is a recording material (recording medium, transfer material, sheet) P (see FIG. 2) such as recording paper. Transferred on. That is, the toner image on the photosensitive drum 1 is transferred to the recording material P which is sandwiched and conveyed between the photosensitive drum 1 and the transfer roller 3 in the transfer unit 4. During the transfer step, a transfer voltage, which is a DC voltage opposite to the normal charging polarity of the toner (charging polarity during development), is applied to the transfer roller 3.

The recording material P is housed in a cassette (not shown) or the like as a recording material accommodating portion, and is sent out one by one by a pickup roller (not shown) or the like. The recording material P is conveyed to a transfer nip (conveyor) 7 which is a contact portion between a transfer roller (resist roller) 5 as a transfer member and a transfer roller 6 as an opposing member, and is temporarily stopped. Then, the recording material P is conveyed to the transfer unit 4 by rotationally driving the transfer roller 5 at the same timing as the toner image on the photosensitive drum 1. That is, the transfer roller 5 and the transfer roller 6 are the transfer nip 7 composed of the transfer roller 5 and the transfer roller 6, and the recording material P sent from the upstream of the transfer nip 7 is moved downstream of the transfer nip 7. Transport. A transfer guide 12 for guiding the recording material P to be transferred to the transfer unit 4 by the transfer roller 5 and the transfer roller 6 is provided upstream of the transfer unit 4 in the transfer direction of the recording material P. The transport guide 12 will be described in detail later.

The recording material P to which the toner image is transferred is conveyed to a fixing device (not shown) as a fixing means, undergoes a toner image fixing process, and then discharged to the outside of the device main body B of the image forming device A. (Output). Further, the toner remaining on the photosensitive drum 1 after the transfer step (transfer residual toner) is removed from the photosensitive drum 1 by a cleaning device 19 as a cleaning means and recovered.

Here, in this embodiment, the photosensitive drum 1, the charging roller 16 as a process means acting on the photosensitive drum 1, the developing device 18, and the cleaning device 19 are integrally formed into a cartridge to form a process cartridge C. The process cartridge C is detachable from the device main body B of the image forming apparatus A.

2. Transport Guide Next, the transport guide 12 in this embodiment will be described in detail. Regarding the image forming apparatus A and its elements, the front side of the paper surface in FIG. 1 is referred to as “front (front)”, and the back side of the paper surface is referred to as “rear (back)”. It is assumed that the line connecting the front-back directions is substantially parallel to the rotation axis direction of the photosensitive drum 1. Further, with respect to the image forming apparatus A and its elements, the vertical direction refers to the vertical direction in the gravitational direction (vertical direction), but does not mean only directly above and directly below, and is above the horizontal plane passing through the element or position of interest, respectively. , Including the lower side.

FIG. 2 is a side view of the vicinity of the transfer unit 4 when the recording material P is being conveyed by the transfer guide 12 (side surface seen from the front side substantially parallel to the rotation axis direction of the photosensitive drum 1). ). FIG. 3 is an enlarged side view (side view seen from the front side substantially parallel to the rotation axis direction of the photosensitive drum 1) showing a part of the transport guide 12. FIG. 4 is a perspective view of the vicinity of the transport guide 12 in a state where the transfer frame 13 described later is present (FIG. 4A) and in a state where the transfer frame 13 is removed (FIG. 4B). FIG. 5 is an enlargement of the vicinity of a part of the front end portion (FIG. 5 (a)) and the vicinity of the rear side end portion (FIG. 5 (b)) of a part of the transport guide 12 in a state where the transfer frame 13 described later is removed. It is a perspective view which shows.

The image forming apparatus A has a transfer guide 12 that is arranged upstream of the transfer unit 104 in the transfer direction of the recording material P and guides the recording material P that is transferred to the transfer unit 4 by the transfer roller 5 and the transfer roller 6. .. The transport guide 12 has a second guide 11 arranged to face the first guide 8 so that the recording material P can pass between the first guide 8 and the first guide 8. Have. In this embodiment, the first guide 8 is a surface of the recording material P facing the photosensitive drum 1 side (a surface on which the toner image is transferred immediately after passing through the transport guide 12: here, also referred to as a “front surface”. ) Is provided on the side. Further, in the present embodiment, the second guide 11 is provided on the side of the recording material P facing the transfer roller 3 side (the surface opposite to the front surface: also referred to as the “back surface” here). Has been done. The first guide 8 can come into contact with the front surface of the recording material P, and the second guide 11 can come into contact with the back surface of the recording material P. The recording material P conveyed by the transfer roller 5 and the transfer roller 6 by the transfer nip 7 is conveyed to the transfer nip 4 while being guided by the first guide 8 and the second guide 11. In this embodiment, the recording material P is transported with reference to a substantially center in a direction substantially orthogonal to the transport direction. That is, in the recording material P, the first and second positions are such that the substantially center in the direction substantially orthogonal to the transport direction thereof is substantially the center in the rotation axis direction of the photosensitive drum 1 and the direction substantially orthogonal to the transport direction of the recording material P. The guides 8 and 11 are conveyed so as to substantially coincide with the center of the width.

In this embodiment, the first guide 8 is formed by processing a metal plate material (sheet metal). As shown in FIGS. 1, 4 (a) and 4 (b), in this embodiment, the first guide 8 is located upstream of the position where the transport roller 6 is provided with respect to the transport direction of the recording material P. It is formed of a continuous sheet metal from the surface to the vicinity of the upstream of the transfer unit 4. The transport roller 6 is exposed from the opening formed in the first guide 8 and comes into contact with the transport roller 5. With respect to a direction substantially orthogonal to the transport direction of the recording material P, the width of the first guide 8 is the recording material having the maximum width in that direction among the recording materials P used in the image forming apparatus A (here, simply " It is also called "maximum size recording material".) It is wider than the area through which P passes.

Further, in the present embodiment, the second guide 11 is formed of a base portion (sheet metal portion) 9 formed by processing a metal plate material (sheet metal) and a sheet-shaped elastic member (flexible sheet member). It is configured to have the sheet portion 10 and the sheet portion 10. As shown in FIGS. 1, 4 (a) and 4 (b), in this embodiment, the base 9 of the second guide 11 is a transfer portion from the downstream side of the transport roller 5 with respect to the transport direction of the recording material P. It is formed of continuous sheet metal up to the vicinity of the upstream side of No. 4. The width of the base 9 is wider than the region through which the maximum size recording material P passes in a direction substantially orthogonal to the transport direction of the recording material P. The sheet portion 10 has a predetermined length in a longitudinal direction arranged along a direction substantially orthogonal to the transport direction of the recording material P and a lateral direction substantially orthogonal to the longitudinal direction thereof, and is predetermined. It is made of a thick sheet-like elastic member. The width (length in the longitudinal direction) of the sheet portion 10 is wider than the region through which the maximum size recording material P passes with respect to the direction substantially orthogonal to the transport direction of the recording material P.

As shown in FIG. 1, in the present embodiment, the base portion 9 is provided with a first flat portion 9a that is continuous from the end portion on the upstream side with respect to the transport direction of the recording material P to a predetermined range on the downstream side. The first flat portion 9a is a second flat portion that is continuous over a predetermined range further downstream with respect to the transport direction of the recording material P by the bent portion 9b bent so as to be convex toward the first guide 8. It is connected to 9c. The seat portion 10 is attached to the base portion 9 with the first flat portion 9a as a seating surface. The seat portion 10 is described so that one end (tip) in the lateral direction arranged on the downstream side with respect to the transport direction of the recording material P projects toward the first guide 8 side from the seat surface 9a. It is fixed to the seat surface 9a. Therefore, the seat portion 10 can be elastically deformed in a predetermined range on the tip end side protruding from the seat surface 9a. The sheet portion 10 can be fixed to the base portion 9 by any fixing means such as adhesion, sticking with an adhesive, welding, fastening with a fastener, etc., but in this embodiment, the sheet portion 10 is a double-sided tape provided with an adhesive. Is fixed to the base 9.

The first guide 8 and the base 9 of the second guide 11 can be formed by using a metal plate material (sheet metal) such as iron, aluminum, stainless steel, copper, and brass. As described later, the sheet portion 10 is made of any material such as resin and metal as long as it has appropriate elasticity (flexibility) so as not to restrain the recording material P too much when it comes into contact with the recording material P. It may be formed of. However, from the above viewpoint, the sheet portion 10 is preferably formed of resin. As the resin material constituting the sheet portion 10, for example, a polyester resin such as PET resin can be preferably used. In this embodiment, the sheet portion 10 is formed of a Mylar sheet.

Here, as described above, with the increase in the process speed of the image forming apparatus, especially in the image forming apparatus adopting the jumping development method, image blurring or the like may occur due to minute "blurring" or "fluttering" of the recording material. The image is becoming more and more distorted. Here, "abrasiveness" and "fluttering" are behaviors of the recorded material to be conveyed, for example, movement of the recording material in a direction intersecting the surface (paper surface) of the recording material. To solve this problem, it is necessary to increase the restraint of the recording material (restraint to suppress "fluttering" and "fluttering") by the transport guide provided upstream of the transfer unit in the transport direction of the recording material, and to solve the transport direction of the recording material. It is effective to support the recording material at multiple points. In order to maximize this effect, it is important to make the restraint of the recording material accurate and constant in a high state, and to make the positional relationship of the plurality of support parts that support the recording material accurate and constant. be. In the configuration described in Patent Document 1, the positional relationship between the first guide and the second guide is accurately maintained in the vicinity of the one abutting portion. However, when the transport guide has a plurality of support portions for supporting the recording material, in the above-mentioned conventional configuration, even if the positional relationship between the first guide and the second guide can be accurately maintained in the vicinity of the abutting portion. , It was difficult to maintain the positional relationship of multiple support parts with high accuracy. Further, if the restraint of the recording material is made too strong, image defects may occur in the transfer portion due to the transport resistance of the recording material. Therefore, it is important not to make the restraint of the recording material too strong.

In this embodiment, the transport guides 12 (first and second guides 8 and 11) can come into contact with the recording material P to be transported to the transfer unit 4 at a plurality of different positions with respect to the transport direction of the recording material P. It is configured in. In this embodiment, as shown in FIG. 2, the transport guides 12 (first and second guides 8 and 11) are independently formed on the first guide 8 or the second guide 11, respectively. It has first, second, and third contact portions 11a, 8a, and 11b. These first, second, and third contact portions 11a, 8a, and 11b constitute a plurality of contact portions capable of contacting the recording material P that is transported to the transfer unit 4 at different positions with respect to the transport direction of the recording material P. do. With respect to the transport direction of the recording material P, the second contact portion 8a is formed downstream of the first contact portion 11a, and the third contact portion 11b is formed downstream of the second contact portion 8a. In particular, in this embodiment, the second contact portion 8a is formed on the first guide 8 and can contact the surface of the recording material P facing the first guide side, and the first and third contacts can be made. The portions 11a and 11b are formed on the second guide 11 and can come into contact with the surface of the recording material P facing the second guide side. That is, in this embodiment, when the recording material P passes through the transport guide 12, the first contact portion 11a formed on the second guide 11 and the second contact portion 11a formed on the first guide 8 are formed. It comes into contact with the contact portion 8a and the third contact portion 11b formed on the second guide 11. As described above, in the present embodiment, when the recording material P is conveyed by the transfer nip 7 and the transfer nip 4, the recording material P makes a first contact in order from upstream to downstream in the transfer direction. It comes into contact with the portion 11a, the second contact portion 8a, and the third contact portion 11b. In other words, in the present embodiment, the transport guide 12 restrains the recording material P by sandwiching the recording material P between the second contact portions 8a and the first and third contact portions 11a and 11b. Then, the transport posture of the recording material P is regulated. With such a configuration, the restraint of the recording material P by the transport guide 12 can be increased, and the ability to suppress "fluttering" and "fluttering" can be improved.

Further, in the present embodiment, the first contact portion 11a is a seat portion 10 of the second guide 11 (more specifically, a seat portion 10 protruding from the seat surface 9a of the base portion 9 toward the first guide 8 side. It is composed of the tip). Therefore, the first contact portion 11a can support the recording material P and elastically deform when the recording material P comes into contact with the recording material P, thereby suppressing "fluttering" and "fluttering" of the recording material P and at the same time. It is possible to prevent the recording material P from being restrained too strongly.

Further, in the present embodiment, the second contact portion 8a is bent so as to be convex toward the second guide 11 side formed near the tip on the downstream side of the first guide 8 with respect to the transport direction of the recording material P. It is composed of bent parts. Further, in the present embodiment, the third contact portion 11b is a first guide 8 (photosensitive drum 1) formed near the tip of the base portion 9 of the second guide 11 regarding the transport direction of the recording material P on the downstream side. It is composed of a bent portion that is bent so as to be convex to the side. By forming a part of the plurality of contact parts with a sheet-shaped elastic member and the other contact part with a sheet metal, the pressing action or the shock absorbing action by the elastic member and the fixing (support) by the sheet metal are combined. Therefore, the recording material P is satisfactorily restrained, and it becomes easy to suppress image defects such as image blur. In particular, in this embodiment, of the three contact portions, the first contact portion 11a located at the most upstream in the transport direction of the recording material P is composed of a sheet-shaped elastic member, and is located at the most downstream and the center, respectively. The third and second contact portions 11b and 8a are made of sheet metal, respectively. As a result, the recording material P is pressed by the movable contact portion farther from the transfer unit 4 in the transport direction of the recording material P, while the recording material P is pressed by the fixed contact portion closer to the transfer portion 4 in the transport direction of the recording material P. Can be guided to a predetermined position. Therefore, the recording material P is better restrained, and it becomes easier to further suppress image defects such as image blur.

As described above, in order to maximize the effect of the plurality of support portions that support the recording material P, the restraint of the recording material P should be made constant in a high state with high accuracy, and the plurality of supporting portions that support the recording material P should be kept constant. It is important to make the positional relationship of the support part accurate and constant. Further, when a part of the plurality of support portions is composed of a sheet-shaped elastic member, in order to maximize the effect of the sheet-shaped elastic member, the seating surface of the sheet-shaped elastic member and others It is important to make the positional relationship with the support part accurate and constant. Therefore, in this embodiment, the transport guide 12 is provided with positioning means as described below.

In this embodiment, the first guide 8 is fixed to a first frame (not shown) fixed to the device main body B of the image forming apparatus A. On the other hand, the second guide 11 is also referred to as a second frame (here, a "transfer frame") that is movable (rotatable in this embodiment) with respect to the first frame to which the first guide 8 is fixed. It is attached to 13. As shown in FIGS. 2, 3 and 4 (a), the transfer frame 13 is provided with a holding portion 13b that movably holds the second guide. The holding portions 13b are provided on both end sides of the second guide 11 in a direction substantially orthogonal to the conveying direction of the recording material P. Further, as shown in FIG. 4B, between the transfer frame 13 and the second guide 11, the second guide 11 is used as an urging means for urging the second guide 11 in the direction toward the first guide 8. A pressing spring 15 composed of a compression spring which is an urging member is provided. In this embodiment, the pressing spring 15 is attached to the transfer frame 13. Further, in this embodiment, two pressing springs 15 are provided in a direction substantially orthogonal to the conveying direction of the recording material P. One pressing spring 15 is arranged in front of the center of the second guide 11 with respect to a direction substantially orthogonal to the conveying direction of the recording material P, and the other pressing spring 15 is substantially orthogonal to the conveying direction of the recording material P. It is arranged behind the center of the second guide 11 in the orthogonal direction. Further, in this embodiment, the pressing spring 15 is arranged between the first and second contact portions 11c and 11d, which will be described later with respect to the transport direction of the recording material P. The second guide 11 is urged by the pressing spring 15 in the direction toward the first guide 8. That is, as will be described in detail later, when the transfer frame 13 is in the first state at the time of image formation, the pressure direction of the second guide 11 by the pressing spring 15 is the direction of the arrow F in FIG. The transfer frame 13 has a first state (first posture, first position) in which the first and second contact portions 11c and 11d, which will be described later, come into contact with the first guide 8, and the first and second positions. In the second state (second posture, second position) in which the abutting portions 11c and 11d of the above are separated from the first guide 8, a holding member capable of holding the second guide 11 is formed.

The holding portion 13b is configured so that the second guide 11 can be held so as not to fall off from the transfer frame 13 when the transfer frame 13 is in the second state at the time of jam processing, as will be described in detail later. There is. The jam treatment refers to an operation of removing the jamming recording material P when a jam (paper jam) occurs in the transport path of the recording material P. Further, the holding portion 13b makes the second guide 11 in the direction along the direction of approaching and moving away from the first guide 8 in the first state (here, also referred to as “clearance direction”). And the surface direction intersecting with the clearance direction (hereinafter, also referred to as "recording material surface direction"), each of them is configured to be movable within a predetermined range. Even when the transfer frame 13 is not in the first state, the directions corresponding to the clearance direction and the recording material surface direction may be similarly referred to as the clearance direction and the recording material surface direction. That is, the holding portion 13b sets the second guide 11 in the clearance direction (direction along the pressing direction by the pressing spring 15) so that the clearance between the first guide 8 and the second guide 11 becomes a predetermined clearance. ), And the recording material surface direction so that the relative positional relationship between the first guide 8 and the second guide 11 in the recording material surface direction is a predetermined positional relationship. Hold in a state where it can be freely moved within a predetermined range.

Then, in this embodiment, the second guide 11 has first and second contact portions 11c and 11d capable of contacting the first guide 8 at different positions with respect to the transport direction of the recording material P. There is. The first and second contact portions 11c and 11d are pressed toward the first guide by urging the second guide 11 by the pressing spring 15. The second contact portion 11d is located downstream of the first contact portion 11c with respect to the transport direction of the recording material P. As shown in FIGS. 5 (a) and 5 (b), in this embodiment, the first and second contact portions 11c and 11d are second in a direction substantially orthogonal to the transport direction of the recording material P, respectively. It is provided on both ends of the guide 11. That is, two contact portions (first and second contact portions 11c and 11d) are provided on the front side and the rear side of the second guide 11, respectively. In particular, in this embodiment, the recording material P passes through both ends of the second guide 11 in the direction substantially orthogonal to the transport direction of the recording material P, respectively, in the first and second contact portions 11c and 11d. It is provided substantially symmetrically with respect to the substantially center of the region. The first and second contact portions 11c and 11d are provided outside the region through which the maximum size recording material P passes in a direction substantially orthogonal to the transport direction of the recording material P. Therefore, the first and second contact portions 11c and 11d do not interfere with the transportation of the recording material P.

As shown in FIGS. 5A and 5B, in the present embodiment, in the first contact portion 11c, more specifically, the end portion of the sheet metal forming the base 9 of the second guide 11 is processed. It is composed of a step portion near the tip of a protrusion formed so as to project toward the first guide 8. As will be described in detail later, the tip portion of the protrusion that protrudes from the step portion that constitutes the first contact portion 11c constitutes the positioned portion 11f. Further, as shown in FIGS. 5A and 5B, in the present embodiment, the second contact portion 11d is, more specifically, the end portion of the sheet metal constituting the base portion 9 of the second guide 11. Is processed to form a tip of a protrusion formed so as to protrude toward the first guide 8. The first and second contact portions 11c and 11d abut against the surface of the first guide 8 facing the second guide 11. As a result, the clearance between the first guide 8 and the second guide 11 is kept accurate and constant. As a result, the restraint of the recording material P can be made constant in a high state with high accuracy, and the positional relationship of the plurality of support portions supporting the recording material P can be made constant with high accuracy.

The first and second abutting portions 11c and 11d are provided substantially symmetrically on both ends of the second guide 11 in a direction substantially orthogonal to the transport direction of the recording material P, whereby the first and second guides are provided. It is easier to keep the clearance between 8 and 11 better and constant, but it is not limited to this. For example, the first contact portion on the upstream side with respect to the transport direction of the recording material P is provided only on the front side (or rear side) of the second guide 11, and the second contact portion on the downstream side is provided as the first contact portion. It may be provided only on the rear side (or front side) of the second guide, which is the side opposite to the side where the portion is provided. Alternatively, the first and second contact portions are provided on the front side (or rear side) of the second guide 11, and the first side (or front side) of the second guide 11 opposite to the first and second contact portions is provided. , Only one of the second contact portions may be provided. Further, depending on the rigidity of the first and second guides 8 and 11, it may be intended to provide the first and second contact portions only on one of the front side or the rear side of the second guide 11. Further, in the present embodiment, the first and second contact portions 11c and 11d are formed in protrusions protruding from the plane of the base portion 9 of the second guide 11 toward the first guide 8 side, and the first guide is formed. Although it comes into contact with the contacted portion of the surface of 8, the present invention is not limited to such a configuration. For example, the first and second contact portions 11c and 11d formed of the surface of the base portion 9 of the second guide 11 are formed as protrusions protruding from the plane of the first guide 8 toward the second guide 11. It may be configured to come into contact with the contacted portion.

Further, as shown in FIGS. 5A and 5B, in the present embodiment, the first guide 8 is engaged with the second guide 11 and the position of the second guide 11 with respect to the recording material surface direction. It has a positioning unit 8b that determines the size. In this embodiment, the positioning portions 8b are provided on both ends of the first guide 8 in a direction substantially orthogonal to the transport direction of the recording material P. In particular, in this embodiment, the positioning unit 8b is substantially symmetrical with respect to the substantially center of the region through which the recording material P passes on both ends of the first guide 8 in a direction substantially orthogonal to the transport direction of the recording material P. , Is provided. In this embodiment, the positioning portion 8b, more specifically, receives the positioned portion 11f formed by the tip end portion of the protrusion on which the first contact portion 11c is formed, and is a sheet metal constituting the first guide 8. Is composed of recesses (or openings) formed by processing. The positioning portion 8b receives and fits the positioned portion 11f to determine the position of the second guide 11. As a result, the relative positions of the first guide 8 and the second guide 11 in the direction of the surface of the recording material are kept constant with high accuracy. As a result, it is possible to make the restraint of the recording material P more accurately constant in a high state, and to make the positional relationship of the plurality of support portions supporting the recording material P constant with high accuracy.

In the present embodiment, the positioned portion 11f is composed of the tip end portion of the protrusion on which the first contact portion 11c is formed, but the present invention is not limited to such a configuration. The positioned portion 11f may be composed of at least one tip of a protrusion on which the first contact portion 11c or the second contact portion 11d is formed, for example, the first and second hits. It may be composed of a tip portion of a protrusion other than the protrusion on which the contact portions 11c and 11d are formed.

Here, at least one of the first, second, and third contact portions 11a, 8a, and 11b includes the first contact portion 11c and the second contact portion 11d with respect to the transport direction of the recording material P. It is preferably located between. In this embodiment, the first and second contact portions 11a and 8a are located between the first contact portion 11c and the second contact portion 11d with respect to the transport direction of the recording material P. Only one of the first contact portion 11a or the second contact portion 8a (for example, the second contact portion 8a) has the first contact portion 11c and the second contact portion 11d with respect to the transport direction of the recording material P. It may be located between. As a result, the positional relationship of the plurality of support portions that support the recording material P can be kept constant with even greater accuracy.

Further, it is preferable that at least one of the first and second contact portions 11a and 8a is at a position substantially equivalent to that of the first contact portion 11c with respect to the transport direction of the recording material P. This substantially equivalent position can be appropriately set within a range in which the effect of keeping the clearance between the first guide 8 and the second guide 11 constant by the first contact portion 11c is sufficiently larger than that of the other positions. .. In this case, at least one of the first and second contact portions 11a and 8a may be located on either the upstream side or the downstream side of the first contact portion 11c with respect to the transport direction of the recording material P. However, at least one of the first and second contact portions 11a and 8a is preferably located within a range of 20 mm or less from the first contact portion 11c with respect to the transport direction of the recording material P, and is within a range of 10 mm or less. It is more preferable to be located at, and it is further preferable to be located at substantially the same position. In this embodiment, the first contact portion 11a is located within 10 mm downstream from the first contact portion 11c with respect to the transport direction of the recording material P.

Similarly, it is preferable that at least one of the second and third contact portions 8a and 11b is at a position substantially equivalent to that of the second contact portion 11d with respect to the transport direction of the recording material P. This substantially equivalent position can be appropriately set within a range in which the effect of keeping the clearance between the first guide 8 and the second guide 11 constant by the second contact portion 11d is sufficiently larger than that of the other positions. .. In this case, at least one of the second and third contact portions 8a and 11b may be located on either the upstream side or the downstream side of the second contact portion 11d with respect to the transport direction of the recording material P. However, at least one of the second and third contact portions 8a and 11d is preferably located within a range of 20 mm or less from the second contact portion 11d with respect to the transport direction of the recording material P, and is within a range of 10 mm or less. It is more preferable to be located at, and it is further preferable to be located at substantially the same position. In this embodiment, the second contact portion 8a is within 10 mm upstream of the second contact portion 11d with respect to the transport direction of the recording material P, and the third contact portion 11b is in the second contact. It is located within a range of 10 mm downstream from the portion 11d. With such an arrangement, the position of the support portion that supports the recording material P can be arranged at a position where the clearance error between the first guide 8 and the second guide 11 is smaller.

FIG. 6 is a perspective view showing the vicinity of the front end portion of the second guide 11 in the unit state of the transfer frame 13 or in the state where the transfer frame 13 is opened as described later. The unit state of the transfer frame 13 is a state in which the transfer roller 3, the second guide 11, and the like are assembled to the transfer frame 13, and the transfer frame 13 is not assembled to the device main body B of the image forming apparatus A. Say that. As shown in FIGS. 2, 3, 5 (a), 5 (b), and 6, the base 9 of the second guide 11 (particularly the above-mentioned second) with respect to the direction substantially orthogonal to the transport direction of the recording material P. A held portion 11e is provided at the end of the flat portion 9b). In this embodiment, two held portions 11e are provided at both ends of the second guide 11 in a direction substantially orthogonal to the conveying direction of the recording material P. In particular, in this embodiment, the held portion 11e is formed by processing the end portion of the sheet metal forming the base portion 9 of the second guide 11. That is, in this embodiment, the held portion 11e is bent so that the strip-shaped sheet metal once protrudes in the direction away from the first guide 8, and further bends so as to protrude outward of the second guide 11. Has a shaped shape. The holding portion 13b provided on the transfer frame 13 has a holding engaging portion 13a formed of an edge portion of the opening that can be engaged with the held portion 11e of the second guide 11. In this embodiment, two holding engagement portions 13a are provided on the holding portions 13b provided at both ends of the transfer frame 13 in a direction substantially orthogonal to the transport direction of the recording material P. The side surface of each holding portion 13b on the side (inside) of the second guide 11 abuts on the side surface of the held portion 11e, so that the direction is substantially orthogonal to the transport direction of the recording material P of the second guide 11 (FIG. 6). The movement in the direction along the arrow Z in the direction) is restricted within a predetermined range. Further, each holding portion 13b engages with a portion of the held portion 11e in which the holding engaging portion 13a protrudes toward the outside of the second guide 11, so that the holding portion 13b engages with the portion of the held portion 11e in the clearance direction of the second guide 11 (FIG. 6). The movement in the direction along the arrow Y in the inside and the movement in the direction along the transport direction of the recording material P (the direction along the arrow X in FIG. 6) are restricted within predetermined ranges. In the state shown in FIG. 6, the second guide 11 is urged in the direction of the arrow F by the pressing spring 15, and the held portion 11e abuts on the holding engaging portion 13a and stops. That is, the holding portion 13b has a holding engaging portion 13a that can be engaged with the second guide 11 urged by the pressing spring 15 in the second state. In this state, the second guide 11 has a clearance direction along the urging direction of the arrow F (direction along the arrow Y in FIG. 6) and a recording material surface direction (XZ plane direction in FIG. 6). It can move freely within the range until the held portion 11e and the holding portion 13b (inner side surface and holding engaging portion 13a) come into contact with each other.

The second guide 11 may be movable only in either the direction along the arrow X or the direction along the arrow Z in the XZ plane in FIG. Further, depending on the desired position accuracy between the first and second guides 8 and 11, the second guide 11 may be movable only in the clearance direction of the clearance direction and the recording material surface direction. ..

Next, the positioning of the first guide 8 and the second guide 11 will be further described by taking as an example the operation when the transfer frame 13 is opened and closed during jam processing and the like. The opening and closing of the transfer frame 13 is not limited to the time of jam processing. FIG. 7 is a cross-sectional side view showing the vicinity of the transfer unit 4 when the transfer frame 13 is in the first state at the time of image formation (a side view seen from the front side substantially parallel to the rotation axis direction of the photosensitive drum 1). 8. The same applies to FIG. 9). FIG. 8 is a cross-sectional side view showing the vicinity of the transfer unit 4 when the transfer frame 13 is in the second state at the time of jam processing. FIG. 9 is a cross-sectional side view showing the vicinity of the transfer unit 4 in a state in which the transfer frame 13 is being moved from the second state during jam processing to the first state during image formation. be.

In this embodiment, the transport direction of the recording material P in the transfer unit 4 is substantially vertical with respect to the installation surface on which the image forming apparatus A is installed. That is, in this embodiment, the transport guides 12 (first and second guides 8 and 11) are configured to guide the recording material P to be transported upward in the direction of gravity. Then, the transfer frame 13 has a first state (first posture, first position) capable of forming an image and a second state capable of jamming the device main body B of the image forming device A. It is configured to be movable (rotatable in this embodiment) between (second posture, second position) and.

The image forming apparatus A is provided with a door 14 on the right side surface when viewed from the front side, which enables access to the inside of the apparatus main body B of the image forming apparatus A for jam processing or the like. The door 14 can be opened by rotating the door rotating shaft 14a substantially parallel to the rotation axis direction of the photosensitive drum 1 in the clockwise direction in the drawing, and can be closed by rotating in the counterclockwise direction in the drawing. It has become. The transfer frame 13 rotates clockwise in the drawing around the frame rotation shaft 13c substantially parallel to the rotation axis direction of the photosensitive drum 1 in conjunction with the rotation of the door 14 clockwise in the drawing. The transfer unit 4 is opened. Further, the transfer frame 13 rotates counterclockwise in the drawing around the frame rotation shaft 13c in conjunction with the rotation of the door 14 counterclockwise in the drawing to form the transfer portion 4. The door 14 and the transfer frame 13 are frames fixed to the device main body B of the image forming apparatus A so as to be rotatable via the door rotating shaft 14a and the frame rotating shaft 13c, respectively (not shown). Is supported by.

In a normal state (during image formation, standby in a state where image formation is possible, etc.), the transfer frame 13 and the door 14 are in a closed state as shown in FIG. 7. In this state, the first and second contact portions 11c and 11d provided on the second guide 11 abut on the first guide 8. Further, in this state, the positioned portion 11f provided on the second guide 11 is fitted into the positioning portion 8b provided on the first guide 8 to determine the position. Further, in this state, the held portion 11e provided on the second guide 11 is not in contact with the holding engaging portion 13a of the holding portion 13b.

At the time of jam processing, the transfer frame 13 and the door 14 are opened as shown in FIG. 8 by being operated by an operator such as a user or a service person. The transfer frame 13 is located at a position shown in FIG. 8 (a position rotated about 90 degrees clockwise with respect to the position shown in FIG. 7) by a stopper (not shown) provided on the apparatus main body B of the image forming apparatus A. Stop at. In this state, the first and second contact portions 11c and 11d provided on the second guide 11 are separated from the first guide 8. Further, in this state, the held portion 11e provided on the second guide 11 is in contact with the holding engaging portion 13a of the holding portion 13b and is held by the holding portion 13b. In this state, the transport path of the recording material P in the vicinity of the transfer unit 4 is completely open, so that the jam treatment can be easily performed.

When the jam processing is completed, the transfer frame 13 and the door 14 are closed by the operator's operation, and the state shown in FIG. 9 is obtained immediately before the operation of closing the transfer frame 13 and the door 14 is completed. When the transfer frame 13 and the door 14 are closed from this state, the first and second contact portions 11c and 11d provided on the second guide 11 abut on the first guide 8. At this time, the positioned portion 11f provided on the second guide 11 is fitted into the positioning portion 8b provided on the first guide 8 to determine the position.

As described above, in the present embodiment, the second guide 11 is urged toward the first guide 8, and the first and second contact portions 11c and 11d provided on the second guide 11 are provided. It comes into contact with the first guide 8. As a result, the clearance between the first guide 8 and the second guide 11 can be kept accurate and constant. Further, in this embodiment, the first, second, and third contact portions 11a, 8a, and 11b are in the vicinity of the first and second contact portions 11c, 11d. That is, the first and second contact portions 11a and 8a are between the first and second contact portions 11c and 11d with respect to the transport direction of the recording material P. Further, the first contact portion 11a is located at substantially the same position as the first contact portion 11c, and the second and third contact portions 8a and 11b are located at substantially the same position as the second contact portion 11d. It is in. Further, in the present embodiment, the positioning portion 8b provided on the first guide 8 engages with the positioned portion 11f provided on the second guide 11, so that the second guide 8 is second with respect to the first guide 8. The position of the guide 11 in the direction of the recording material surface is determined. With such a configuration, the positional relationship between the first, second, and third contact portions 11a, 8a, and 11b can be kept constant with high accuracy. Therefore, according to this embodiment, the restraint of the recording material P by the transport guide 12 is controlled with high accuracy, and even when the transport speed of the recording material P is high, "blurring" and "fluttering" are suppressed to obtain high image quality. Image can be formed.

Further, in this embodiment, the first contact portion 11a is composed of a sheet-shaped elastic member. By supporting the recording material P with an elastic sheet-like member instead of a rigid body such as metal, the recording material P can be prevented from causing image defects in the transfer portion 4 due to excessive restraint of the recording material P. It is possible to suppress the occurrence of image defects due to "abrasiveness" and "fluttering".

[others]
Although the present invention has been described above with reference to specific examples, the present invention is not limited to the above-mentioned examples.

In the above-described embodiment, the case where the present invention is applied to the transport guide for guiding the recording material to be transported from the photoconductor as the image carrier to the transfer portion of the toner image to the recording material has been described. It is not limited to such an aspect. As is well known to those skilled in the art, a toner image that is primarily transferred from a photoconductor as a first image carrier to an intermediate transfer body as a second image carrier in a primary transfer unit is secondarily transferred. There is an intermediate transfer type image forming apparatus in which the intermediate transfer body is secondarily transferred from the intermediate transfer body to the recording material. As the intermediate transfer body, an endless belt-shaped intermediate transfer belt stretched on a plurality of tension rollers is often used. In the secondary transfer unit, a secondary transfer member such as a secondary transfer roller arranged to face the inner roller, which is one of a plurality of tension rollers, via an intermediate transfer belt comes into contact with the intermediate transfer belt. It is formed by doing. Then, a transport guide for guiding the recording material to be transported to the secondary transfer unit is provided upstream of the secondary transfer unit in the transport direction of the recording material. The present invention can also be applied to a transfer guide that guides a recording material to be transferred to a secondary transfer unit in such an intermediate transfer type image forming apparatus, and the same effect as that of the above-described embodiment can be obtained. can. Further, the image carrier is not limited to a drum-type photoconductor and an endless belt-shaped intermediate transfer body. The image carrier may be, for example, an endless belt-shaped photoconductor, a drum-type intermediate transfer body (such as an intermediate transfer drum formed by stretching a sheet on a frame), or a drum-type intermediate transfer body. It may be an endless belt-shaped electrostatic recording dielectric.

Further, in the above-described embodiment, the second guide among the first and second guides is moved with respect to the first guide to open the transfer portion, but the present invention is not limited to this. The transfer portion may be opened by moving the first guide with respect to the second guide. Further, in the above-described embodiment, the first guide is provided by being supported by a frame fixed to the apparatus main body of the image forming apparatus, but the present invention is not limited to this, and the apparatus is not limited to this, for example, an apparatus such as a process cartridge. It may be provided in a unit that can be attached to and detached from the main body. Further, in the above-described embodiment, the first guide is provided on the surface side of the recording material facing the image carrier side, and the second guide is provided on the surface side of the recording material facing the transfer means side. rice field. However, the present invention is not limited to this, and the arrangement relationship of the first and second guides may be the opposite relationship.

8 First guide 8a Second contact part 8b Positioning part 9 Base part 10 Seat part 11 Second guide 11a First contact part 11b Second contact part 11c First contact part 11d Second contact part 11e Holded part 13 Transfer frame 13a Holding engaging part 13b Holding part

Claims (15)

An image carrier that supports a toner image and
A transfer means for transferring a toner image from the image carrier to a recording material in the transfer unit,
The first and second guides, which are arranged upstream of the transfer unit in the transport direction of the recording material and guide the recording material to be transported to the transfer unit, are the first guide and the second guide. The first guide and the second guide are arranged to face each other so that the recording material can pass between the guides, and are transported to the transfer unit at a plurality of positions different with respect to the transport direction of the recording material. The first and second guides are configured so that they can come into contact with the recording material.
An urging means for urging the second guide in the direction toward the first guide, and
Have,
The first guide is in contact with the first guide, and the second guide is urged by the urging means to be pressed toward the first guide. An image forming apparatus provided with a contact portion and a second contact portion located downstream of the first contact portion in a transport direction of a recording material. The first and second guides can come into contact with the recording material formed in the first guide or the second guide, respectively, at different positions with respect to the transport direction of the recording material and transported to the transfer portion. It has first, second, and third contact portions, and the second contact portion is formed downstream of the first contact portion with respect to the transport direction of the recording material, and the third contact portion is said. The image forming apparatus according to claim 1, which is formed downstream of the second contact portion. The second contact portion is formed on the first guide and can contact the surface of the recording material facing the first guide side, and the first and third contact portions are the second contact portion. The image forming apparatus according to claim 2, wherein the image forming apparatus is formed on the guide of the recording material and can come into contact with the surface of the recording material facing the second guide side. 2. Claim 2 in which at least one of the first, second, and third contact portions is located between the first contact portion and the second contact portion with respect to the transport direction of the recording material. Or the image forming apparatus according to 3. The image forming apparatus according to claim 4, wherein the second contact portion is located between the first contact portion and the second contact portion with respect to the transport direction of the recording material. At least one of the first and second contact portions is located within 20 mm from the first contact portion with respect to the transport direction of the recording material, and at least one of the second and third contact portions. Is the image forming apparatus according to any one of claims 2 to 5, which is located within 20 mm from the second contact portion with respect to the transport direction of the recording material. The image forming apparatus according to any one of claims 2 to 6, wherein the first contact portion is formed of a sheet-shaped elastic member. The first and second abutting portions are regions in which the recording material having the maximum width in the direction of the recording materials used in the image forming apparatus passes through in a direction substantially orthogonal to the transport direction of the recording material. The image forming apparatus according to any one of claims 1 to 7, which is provided on the outside. The first and second contact portions are provided according to any one of claims 1 to 8 provided on both end sides of the second guide with respect to a direction substantially orthogonal to the transport direction of the recording material, respectively. Image forming device. The first and second abutting portions are located on both ends of the second guide in a direction substantially orthogonal to the transport direction of the recording material, respectively, substantially symmetrically with respect to the substantially center of the region through which the recording material passes. The image forming apparatus according to claim 9. The image forming apparatus according to any one of claims 1 to 10, wherein the first and second guides are configured to guide a recording material to be conveyed upward in the direction of gravity. A first state in which the first and second abutting portions abut on the first guide, and a second state in which the first and second abutting portions are separated from the first guide. Has a holding member capable of holding the second guide in
Any of claims 1 to 11, wherein the holding member holds the second guide so as to be movable in a direction toward the first guide and a direction away from the first guide in the first state. The image forming apparatus according to claim 1. The image forming apparatus according to claim 12, wherein the holding member has an engaging portion that can engage with the second guide urged by the urging means in the second state. The holding member is capable of moving the second guide in a direction along the direction of approaching and away from the first guide in the first state, and a surface direction intersecting the direction. Hold on to
The image forming apparatus according to claim 12 or 13, wherein the first guide has a positioning portion that engages with the second guide to determine the position of the second guide with respect to the plane direction. The first guide is provided on the surface side of the recording material facing the image carrier side, and the second guide is provided on the surface side of the recording material facing the transfer means side. The image forming apparatus according to any one of 14 to 14.

Images