1. Field of the Invention
The present invention relates to an image forming apparatus transportable in a cartridge-mounted state. The image forming apparatus is an apparatus used for forming an image on a recording medium. The image forming apparatus may include, for example, an electrophotographic copying machine, an electrophotographic printer (e.g., a laser printer or alight emitting diode (LED) printer), a facsimile apparatus, or a multifunction peripheral (e.g., multifunction printer).
2. Description of the Related Art
Image forming apparatuses form an image on a recording material according to electrophotography image forming processes using an electrophotography photosensitive member and a transfer member. In order to enhance usability, a cartridge that integrates a photosensitive member and a process unit that acts on the photosensitive member and is removable from the apparatus main body is widely used in a configuration of an image forming unit. Further, in recent years, in order to improve efficiency of transportation by downsizing, the cartridge has been mounted to and integrated into the product main body and the apparatus is shipped in that state.
In such a case, the cartridge may move from its mounting position in the apparatus main body due to vibration and impact during carriage and transportation, and the cartridge or a part of the apparatus main body may be damaged. According to Japanese Patent Application Laid-Open No. 2006-71671, a regulating member is provided on a mounting and dismounting path of a cartridge to the apparatus main body between the cartridge and an open/close cover. According to the regulating member, the movement of the cartridge during the transportation and carriage of the image forming apparatus has been controlled. Only the cartridge is mounted on the apparatus main body. Before the image forming apparatus is transported, the regulating member is set so that it contacts the cartridge. Since the regulating member is pressed by the open/close cover, the cartridge is secured.
Generally, the mounting path of the cartridge is approximately straight from the viewpoint of facilitation of mounting and dismounting the cartridge. According to a conventional example, a regulating member is provided between the open/close cover and the cartridge. Thus, a space for the regulating member is necessary between the open/close cover and the cartridge. The space for the regulating member affects the size of the apparatus main body.
Further, the impact that is received by the cartridge is transmitted to the open/close cover via the regulating member. Thus, the open/close cover needs to be firmly secured in a closed state so that it does not open. However, if a lock mechanism or a tape is added for such a purpose, the number of necessary components will be increased and, further, the size of the apparatus main body may be increased.
Furthermore, if the open/close cover is not rigid enough, the cartridge and the regulating member may move and receive impact while the apparatus is transported. However, if a rib is added to the open/close cover or the cover is thickened so as to enhance rigidity of the open/close cover, the cost of the apparatus will be increased.
The entire product main body can be additionally secured by packing it with a packaging material so that the open/close cover is not opened or bent. In this case, the packaging material needs to have enough strength so that it is not deformed. However, if the thickness of the packaging material is increased so as to increase its strength, the size of the apparatus after the packaging will be increased.
Further, like the multifunction peripheral, if the apparatus can add an option unit to an upside of the open/close cover, for example, a part of the packaging material may be inserted between the open/close cover and the option unit. However, in this case, since the open/close cover is held only by a part of the packaging material, it is difficult to sufficiently secure the strength of that portion.
The present invention is directed to an image forming apparatus which can be transported with stability in a cartridge-mounted state without increasing a size of the apparatus main body or a regulating member.
According to an aspect of the present invention, an image forming apparatus which can be transported with a cartridge mounted, the image forming apparatus includes a mounting portion on which the cartridge is removably mounted, a regulating member configured to regulate movement of the cartridge from the mounting portion and mounted between the cartridge and an apparatus main body of the image forming apparatus, wherein the regulating member includes a first contact portion which receives a first force applied from the cartridge to inside of the regulating member if the cartridge moves from the mounting portion and a second contact portion which receives a second force that prevents the regulating member from moving to an upstream side in a mounting direction of the regulating member at a position away from a mounting and dismounting path of the cartridge where the cartridge passes when the cartridge is mounted on or dismounted from the apparatus main body by receiving the first force, and a main body regulating portion configured to regulate movement of the regulating member to a downstream side in the mounting direction by the second force and brought into contact with the regulating member.
Further features and aspects of the present invention will become apparent from the following detailed description of exemplary embodiments with reference to the attached drawings.
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments, features, and aspects of the invention and, together with the description, serve to explain the principles of the invention.
Various exemplary embodiments, features, and aspects of the invention will be described in detail below with reference to the drawings.
A first exemplary embodiment of the present invention will be described. Dimensions, materials, and shapes of the components described in the following exemplary embodiments and their relative arrangements are changed as appropriate according to the configuration and various conditions of the apparatus of the present invention, and thus shall not be construed as limiting the present invention unless otherwise specified.
First, an electrophotography image forming apparatus (hereinafter referred to as an image forming apparatus) 100 will be described with reference to
First, an outline of the configuration of the image forming apparatus will be described.
The sheet feeding unit 10 includes a sheet feeding roller 12 and a separation pad 11 by which recording materials P set on a tray 13 is separated and fed one sheet after another. Then, at the image forming unit 20, a toner image formed on the photosensitive drum 5 is transferred onto the recording material P, which is fed by the sheet feeding unit 10, by the transfer roller 21. Subsequently, the image is thermally-fixed by the fixing unit 23 and discharged to the sheet discharge unit 30.
As illustrated in
Further, a mounting portion 3a1 which engages with the boss 1a and a main body rotation control portion 3b1 which abuts on the boss 1b are provided on side plates of both sides of the apparatus main body 100A. Furthermore, a cartridge guide 3a that guides the boss 1a to the mounting portion 3a1 and a cartridge guide 3b that guides the boss 1b to the main body rotation control portion 3b1 are provided to the respective side plates. When the cartridge 1 is mounted into the apparatus main body 100A, the bosses 1a and 1b move along the cartridge guides 3a and 3b and abut the mounting portion 3a1 and the main body rotation control portion 3b1. Accordingly, a path and orientation of the cartridge 1 in the apparatus main body 100A are determined.
As illustrated in
As illustrated in
As illustrated in
In other words, if the cartridge 1 tends to move in a cartridge-dismounting direction (the cartridge 1 removing direction) from the mounting portion 3a1 due to impact it has received during the transportation of the image forming apparatus 100, then, as illustrated in
Similarly, a force is added to the regulating member 2 due to impact when the apparatus is transported. However, since the regulating member 2 is made from a light-weight material such as expanded polystyrene, the impact on the regulating member 2 is far smaller than the force applied to the cartridge 1 and therefore can be ignored. This applies to second, third, and fourth exemplary embodiments described below.
The pressing force f1 is transmitted in the vertical direction with respect to the contact surface 2a to the regulating member 2 and is received by the main body frame 4 at the contact surface 2b. Since the contact surface 2b is the surface parallel to the contact surface 2a, rotation moment due to the pressing force f1 is not generated on the regulating member 2. Further, since the main body frame 4 is made from a highly rigid component, it is not deformed. Thus, the regulating member 2 is pressed against the main body frame 4 by the pressing force f1.
Then, a frictional force (second force) due to friction between the regulating member 2 and the main body frame 4 acts on the regulating member 2 in the vertical direction according to the pressing force f1. The frictional force f2 regulate the movement of the regulating member 2 toward the upstream side in the mounting direction from the regulation position. In other words, the frictional force f2 is a force that moves the regulating member 2 to the downstream side in the mounting direction of the regulating member 2. Further, the regulating member 2 contacts the main body regulating portion 4a provided on the main body frame 4 and the regulating member 2 is prevented from moving to the downstream side in the mounting direction.
As described above, the cartridge guides 3a and 3b are not in parallel with the main body frame 4 and provided at such an angle that they intersect with the main body frame 4 at the upstream side in a mounting direction V2 of the cartridge 1. In other words, the angle of the main body frame 4 with respect to the horizontal direction is greater than the angle of the cartridge guides 3a and 3b with respect to the horizontal direction.
Thus, if the cartridge 1 moves in such a direction that it is removed from the mounting portion 3a1, the regulating member 2 is pressed by the cartridge 1. Accordingly, in addition to the pressing force f1, an elastic force Δf1 due to deformation of the regulating member 2 is applied to the main body frame 4. As a result, the frictional force f2 due to the friction between the regulating member 2 and the main body frame 4 is further increased and will be sufficiently greater than a force f3 which is a component of the force G1 (shown by the arrow) and is parallel to the main body frame 4. Thus, the regulating member 2 does not move from the regulation position and can control the cartridge 1 not to move from the mounting position.
Further, the regulating member 2 is mounted into a position which can be visually recognized from outside of the apparatus main body 100A when the inside of the apparatus main body 100A is viewed from the opening 100A1. The positional configuration of the regulating member 2 is such that, as illustrated in
If the image forming apparatus 100 is transported while the cartridge 1 is being mounted, the regulating member 2 receives a force from the main body frame 4 at a position away from the mounting and dismounting path V1 of the cartridge 1. This force prevents the regulating member 2 from moving from the regulation position. Thus, it is not necessary to secure the open/close cover 40 to the apparatus main body 100A so that the open/close cover 40 presses down the regulating member 2 or enhance the rigidity of the open/close cover 40. Further, in some cases, an optional unit, such as a scanner for reading a document, is provided on the open/close cover 40 and use of the packaging material affects the function of the open/close cover 40. The present exemplary embodiment is useful in controlling the movement of the cartridge 1 by the regulating member 2 under such conditions.
If the cartridge 1 is mounted such that it is inserted far into the apparatus main body 100A, it is not necessary to increase the size of the regulating member 2 and therefore contributes to reducing cost. Further, since the side wall 4b of the main body frame 4 that generates the frictional force f2 applied to the regulating member 2 is set at a position that can be viewed from the outside of the main body 100A via the opening 100A1, the regulating member 2 can be removed easily.
Next, an image forming apparatus 200 according to a second exemplary embodiment will be described with reference to
As illustrated in
When the cartridge 101 is mounted into the apparatus main body 200A, the bosses 101a and 101b move along the first and the second cartridge guides 103a and 103b. According to the present exemplary embodiment, the first and the second cartridge guides 103a and 103b are bent in the middle. Thus, with respect to the mounting direction of the cartridge 101, the first cartridge guide 103a includes an upstream portion 103a3 and a downstream portion 103a2, and the second cartridge guide 103b includes an upstream portion 103b3 and a downstream portion 103b2. The upstream portions 103a3 and 103b3 have greater angles with respect to the horizontal direction compared to the angles of the downstream portions 103a2 and 103b2. This aims at reducing the size of the apparatus main body 200A by increasing the angles of the upstream portions 103a3 and 103b3 and reducing the dead space of the apparatus main body 200A.
As illustrated in
Then, the cartridge 101 rotates from the state illustrated in
Since a photosensitive member 102 of the cartridge 101 is pressed against the transfer roller 21, the cartridge 101 receives a force from the transfer roller 21 from an approximately horizontal direction. The boss 101b of the cartridge 101 receives the force since the boss 101b contacts a wall 103b4 of the second cartridge guide 103b.
As illustrated in
The regulating member 102 contacts the cartridge 101 at a contact surface 102a and also contacts the side wall 104b which is a main body contact portion of the main body frame 104 at a contact surface 102b. The contact surface 102b is a second contact portion. Further, the contact surface 102b is a surface parallel to the contact surface 102a down toward the main body frame 104.
A center point of the boss 101a being the center of rotation of the cartridge 101 is referred to as a center point M and a point on the contact surface 102a of the regulating member 102 is referred to as a point N. Further, a line segment between the center point M and the point N is referred to as a line segment A. Furthermore, a line segment obtained by arbitrarily extending a perpendicular line of the line segment A from the point N in the rotatable direction of the cartridge 101 is referred to as a line segment B. As illustrated in
In
On the other hand, as illustrated in
The pressing force f101 is transmitted through the regulating member 102 and received by the main body frame 104 at the contact surface 102b. Since the contact surface 102b is the surface parallel to the contact surface 102a, rotation moment due to the pressing force f101 is not generated with respect to the regulating member 102. Further, since the main body frame 104 is made from a highly-rigid material, it is not deformed. In other words, the regulating member 102 is pressed against the main body frame 104 by the pressing force f101. Further, due to the pressing force f101, a frictional force f102 (a second force) acts on the regulating member 102. The frictional force f102 is friction between the regulating member 102 and the main body frame 104 in the vertical direction. This frictional force f102 is a control force that prevents the regulating member 102 from moving from the regulation position.
The downstream portions 103a2 and 103b2 of the first and the second cartridge guides 103a and 103b are not in parallel with the main body frame 104 and provided at such an angle that they intersect with the main body frame 104 at the upstream side in a mounting direction V4 of the cartridge 101. In other words, the angle of the main body frame 104 with respect to the horizontal direction is greater than the angle of the cartridge guides 103a and 103b with respect to the horizontal direction. Furthermore, as illustrated in
Thus, if the cartridge 101 moves in such a direction that it is removed from the mounting portion 103a1, the regulating member 102 is pressed by the cartridge 101. Accordingly, in addition to the pressing force f101, an elastic force Δf101 due to deformation of the regulating member 102 is applied to the main body frame 104.
Thus, the frictional force f102 due to the friction between the regulating member 102 and the main body frame 104 is further increased and becomes sufficiently greater than a force f103 which is a component of the force G2 (shown by the arrow) and is parallel to the main body frame 104. Thus, the regulating member 102 does not move from the regulation position and thus can control the movement of the cartridge 101. In other words, the frictional force f102 is a force that acts on the regulating member 102 so that the regulating member 102 moves to the downstream side in the mounting direction thereof. Further, since the regulating member 102 contacts the main body regulating portion 104a of the main body frame 104, the movement of the regulating member 102 to the downstream side in the mounting direction is controlled.
Further, the regulating member 102 is mounted into a position which can be visually recognized from outside of the apparatus main body 200A when the inside of the apparatus main body 200A is viewed from the opening 200A1. The positional configuration of the regulating member 102 is such that, as illustrated in
As described above, if the image forming apparatus 200 is transported while the cartridge 101 is being mounted, the regulating member 102 receives a force from the main body frame 104 at a position away from the mounting and dismounting path V3 of the cartridge 101. This force prevents the regulating member 102 from moving from the regulation position. Thus, it is not necessary to secure the open/close cover 140 to the apparatus main body 200A so that the open/close cover 140 presses down the regulating member 102 or enhance the rigidity of the open/close cover 140.
Other effects are same as the first exemplary embodiment. Further, since the side wall 104b of the main body frame 104 that generates the frictional force f102 applied to the regulating member 102 is set at a position that can be viewed from the outside of the main body 200A via the opening 200A1, the regulating member 102 can be removed easily.
Next, an image forming apparatus 300 according to a third exemplary embodiment of the present invention will be described with reference to
As illustrated in
As illustrated in
In the following description, a point on the contact surface 202a is referred to as a point N4 and a point on the contact surface 202b is referred to as a point N5. Further, a point where the regulating member 202 contacts an end of the main body regulating portion 204a of the main body frame 204 in the mounting direction is referred to as a point L, and a point where the contact surfaces 202c and 202d contact is referred to as a point R. A contact point of the contact surfaces 202a and 202b is provided on a line segment that connects the center point M and the point L of the regulating member 202. As described above, the contact surface 202d has the arc shape having the center point M at the center of the curve. The mounting of the regulating member 202 is completed by rotating the regulating member 202 along the cartridge 201. The regulating member 202 is used only when the image forming apparatus 300 is transported and removed when a user uses the image forming apparatus 300.
As illustrated in
Then, a force G4R (the first force) as a reaction force of the force G4 acts on the regulating member 202. If the cartridge 201 rotates about the center point L according to a force f201, the contact surface 202b of the regulating member 202 is pressed against the cartridge 201. Further, a pressing force f202 which is a force of a component perpendicular to a tangential component of the contact surface 202b of the force G4R acts on the regulating member 202. As a result, as illustrated in
In other words, the contact surfaces 202a and 202b (first contact portions) receive a resultant force f203 (the first force) from the cartridge 201. Thus, the contact surfaces 202c and 202d (second contact portions) receive a force f204 (the second force) in a direction that the regulating member 202 is controlled at the regulation position where the position of the contact surface 202c contacts the main body regulating portion 204a. Further, similar to the other exemplary embodiments, the force f204 acts on the regulating member 202 at a position away from a mounting and dismounting path V5 of the regulating member 202. Thus, the position regulation of the cartridge 201 can be performed and the cartridge 201 will be at the mounting position even when the image forming apparatus 300 is transported.
As illustrated in
Similar to the first and the second exemplary embodiments, the force f204 is a force that moves the regulating member 202 to the downstream side in the mounting direction. Thus, the main body regulating portion 204a that controls the movement of the regulating member 202 so that it does not move to the downstream side in the mounting direction is provided on the main body frame 204.
Further, the regulating member 202 is mounted into a position which can be visually recognized from outside of the apparatus main body 300A when the inside of the apparatus main body 300A is viewed from an opening 300A1. The positional configuration of the regulating member 202 is such that, as illustrated in
As described above, if the image forming apparatus 300 which can be transported while the cartridge 201 is being mounted is transported, the regulating member 202 receives a force from the main body frame 204 at a position away from the mounting and dismounting path V5 of the cartridge 201. This force prevents the regulating member 202 from moving from the regulation position. Thus, it is not necessary to secure the open/close cover 240 to the apparatus main body 300A so that the open/close cover 240 presses down the regulating member 202 or enhance the rigidity of the open/close cover 240. Further, since the side wall 204b of the main body frame 204 is set at a position that can be viewed from the outside of the main body 300A via the opening 300A1, the regulating member 202 can be easily removed.
Next, an image forming apparatus 400 according to a fourth exemplary embodiment will be described with reference to
As illustrated in
In
Further, since the cartridge 301 needs to rotate about the boss 301a, the regulating member 302 flexes and the force Δf301 is excessively applied to the fixing frame 324. Thus, a frictional force f303 that acts on the regulating member 302 according to the fixing frame 324 increases and is greater than a force f304 to the upstream side in the mounting direction. So that the movement of the regulating member 302 and the cartridge 301 are prevented. Similar to the other exemplary embodiments, the frictional force f303 acts on the regulating member 302 at a position away from a mounting and dismounting path V7 of the cartridge 301.
Greater rotation moment that regulates the movement of the cartridge 301 is obtained and thus greater regulating force is obtained by increasing the distance between the position of the regulating member 302 and the center point M. In order to downsize the apparatus main body 400A, it is necessary to make the cartridge 301 smaller. However, in that case, the distance from the center point M to the regulating member will be reduced. Since the grip portion 301c of the cartridge 301 has a protruded shape and is held by the user, its size is greater than a certain size. Thus, a long distance between a point on the surface of the grip portion 301c and the center point M can be obtained, and thus advantageous in controlling the movement of the cartridge.
Further, if the contact surface 302a is closer to parallel with the line segment A in
As a result, according to the grip portion 301c, usability with respect to mounting or dismounting the cartridge on or from the apparatus main body 400A and convenience of carrying is improved and the regulating force that acts on the movement of the cartridge 301 when the apparatus main body 400A receives impact when it is transported while the cartridge 301 is mounted can be increased.
Further, the force f303 can be considered as a force that moves the regulating member 302 to the downstream side in the mounting direction. Thus, a main body regulating portion 324a that prevents the regulating member 302 from moving toward the downstream side in the mounting direction is provided on the fixing frame 324.
Further, the regulating member 302 is mounted into a position which can be visually recognized from outside of the apparatus main body 400A when the inside of the apparatus main body 400A is viewed from an opening 400A1. The positional configuration of the regulating member 302 is such that, as illustrated in
As described above, if the image forming apparatus 400 which can be transported while the cartridge 301 is being mounted is transported, the regulating member 302 receives a force from the fixing frame 324 at a position away from the mounting and dismounting path V7 of the cartridge 301. This force prevents the regulating member 302 from moving from the regulation position. Thus, it is not necessary to secure the open/close cover 340 to the apparatus main body 400A so that the open/close cover 340 presses down the regulating member 302 or enhance the rigidity of the open/close cover 340. Other effects are similar to those of the first to the third exemplary embodiments. Further, since a side wall 324b of a main body frame 324 is set at a position that can be viewed from the outside of the main body 400A via the opening 400A1, the regulating member 302 can be easily removed.
As described above, according to the present invention, the impact caused by the cartridge when the image forming apparatus is transported is received by the rigid frame in the apparatus main body via the regulating member, and thus it is not necessary to depend on the open/close cover. Thus, the regulating member can be made smaller and the movement of the cartridge can be stably controlled without increasing the rigidity of the open/close cover, adding a lock mechanism to the cover, or increasing the strength of the packaging material.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all modifications, equivalent structures, and functions.
This application claims priority from Japanese Patent Applications No. 2010-005835 filed Jan. 14, 2010 and No. 2010-281047 filed Dec. 16, 2010, which are hereby incorporated by reference herein in their entirety.
Number | Date | Country | Kind |
---|---|---|---|
2010-005835 | Jan 2010 | JP | national |
2010-281047 | Dec 2010 | JP | national |