This application is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2017-116122 filed Jun. 13, 2017.
The present invention relates to an assembly removable structure and an image forming apparatus.
An assembly removable structure according to an aspect of the invention includes an assembly that includes a connectable member and that is attached to and removed from a receiving member of an apparatus body in a first direction, a connection member disposed on the apparatus body to be movable forward and backward in a cross direction that crosses the first direction, the connection member being connected to the connectable member while being in a projecting state, a switch member that is operated independently of a lid member and that is capable of switching the connection member between a first position, in which the connection member is connected to the connectable member, and a second position, in which the connection member is removed from the connectable member, the lid member rendering the receiving member open and closed, and a restricting device that restricts removal of the assembly while the assembly is being attached to the receiving member, the restricting device switching the switch member from the second position to the first position with an operation of the restriction.
Exemplary embodiments of the present invention will be described in detail based on the following figures, wherein:
An assembly removable structure and an image forming apparatus according to the present exemplary embodiment are described as examples.
Entire Structure
The image forming apparatus 10 includes a box-shaped apparatus body 11. The apparatus body 11 houses a receiving member 13 (see
For example, the covering 12 has a U-shaped cross section when viewed in the Z direction and extends in the Y direction. The covering 12 is arcuately movable about the hinge 16 between a closed position, in which it closes the opening 11A, and an open position, in which it renders the opening 11A open. In the state where the fixing unit 32, described below, is attached to the receiving member 13, the covering 12 in the closed position covers a pair of positioning rollers 23, a second transfer portion 29, and the fixing unit 32, and the covering 12 in the open position allows the pair of positioning rollers 23, the second transfer portion 29, and the fixing unit 32 to be exposed from the apparatus body 11. The pair of positioning rollers 23 are described below.
The image forming apparatus 10 includes a power supply 21, a transport portion 22, an image forming unit 24, a removable structure 30, which is an example of an assembly removable structure, a driver 26 (see
The image forming unit 24 is an example of a developer image forming device, and includes multiple image forming units 25 and a transfer unit 27. The image forming unit 24 forms toner images G using toner T on a sheet P transported by the transport portion 22. The toner T is an example of a developer. The toner images G are an example of an image and a developer image. The multiple image forming units 25 perform, for example, charging, exposure, and development operations in the known electrophotographic system.
The transfer unit 27 includes an intermediate transfer belt 27A to which toner images G are first-transferred and which second-transfers the first-transferred toner images G onto the sheets P at the second transfer portion 29 on the transport path A. The controller 28 controls operations such as power supply from the power supply 21 to each component of the image forming apparatus 10, transportation of the sheets P performed by the transport portion 22, an image forming operation of the image forming unit 24, and an operation of the driver 26.
Driver
The driver 26 illustrated in
Receiving Member
The receiving member 13 illustrated in
The bottom plate 15 illustrated in
Guide rails 23A and 23B are disposed on the side plate 19. The guide rail 23A is disposed on the Y side of the bottom plate 15 and extends in the X direction. The guide rail 23B is disposed on the −Y side of the bottom plate 15 and extends in the X direction. The guide rails 23A and 23B hold the link member 36, described below, therebetween in the Y direction to guide the link member 36 in the X direction.
Related Structure
The removable structure 30 is described now.
The removable structure 30 illustrated in
Fixing Unit
The fixing unit 32 illustrated in
The housing 42 has a rectangular parallelepiped box shape extending in the Z direction. The housing 42 includes a rectangular bottom plate 42A, having a length in the Z direction and a width in the X direction when viewed in the Y direction, and a side plate 42B, standing erect in the Y direction at the −Z side end portion of the bottom plate 42A. The side plate 42B has a through hole 51, which extends through the side plate 42B in the Z direction.
The bracket 43 illustrated in
The fixing roller 44 illustrated in
The halogen heater 45 generates heat with energization to heat the fixing roller 44. A gear 52 is attached to the core bar 44A on the outer circumference of the −Z side end portion. The fixing roller 44 has its temperature detected by a temperature sensor, not illustrated. When the temperature sensor detects a temperature lower than a predetermined temperature, the halogen heater 45 is energized. When the temperature sensor detects a temperature higher than or equal to the predetermined temperature, the halogen heater 45 is stopped being energized.
For example, the pressing roller 46 includes a cylindrical core bar 46A and a coating portion 46B on the outer circumferential surface of the cylindrical core bar 46A. The coating portion 46B includes an elastic layer and a release layer. The pressing roller 46 is disposed in the housing 42 on the X side of the transport path A (see
The coupling member 48 is cylindrical and disposed in the housing 42 to be rotatable about the axis extending in the Z direction. The coupling member 48 includes multiple protrusions, not illustrated, at intervals in the circumferential direction on the outer circumferential surface of the coupling member 48. The coupling member 48 has its −Z side end portion exposed to the outside of the housing 42 through a through hole 51 of the side plate 42B. A rotation shaft 54 is attached to the Z side end portion of the coupling member 48 to have its rotation center arranged coaxially with the rotation center of the coupling member 48.
A gear 56 is attached to the rotation shaft 54. The gear 56 is engaged with the gear 52. Thus, the fixing roller 44 is rotated when the coupling member 48 is rotated. The fixing roller 44 is thus rotated by the rotational force transmitted from the driver 26 via a coupling member 34, described below, and fixes the toner image G (see
The fixing unit 32 illustrated in
Coupling Member
The coupling member 34 illustrated in
The shaft portion 34B is supported by guide members 37, disposed in the apparatus body 11 and extending in the Z direction, to be movable in the Z direction. The coupling member 34 is capable of moving in the Z direction to the Z side toward the coupling member 48 and to the −Z side away from the coupling member 48. The coupling member 34 is pressed to the Z side by a coil spring 39 coming into contact with the wide portion 34C.
The coupling member 34 has multiple recesses, not illustrated and spaced at intervals in the circumferential direction. These recesses engage with protrusions, not illustrated, of the coupling member 48 (see
Link Member
The link member 36 illustrated in
When viewed in the Z direction, the leg portion 36A has a rectangular shape having a length in the Y direction and a width in the X direction. Part of the leg portion 36A is inserted into the cut 15A. When viewed in the Z direction, the cam portion 36B has a rectangular shape having a width in the Y direction and a length in the X direction. The cam portion 36B has a long hole 36C, which extends through the cam portion 36B in the Z direction and extends long in the X direction.
The long hole 36C has a dimension in the X direction that is longer than or equal to twice the dimension of the connection portion 34A of the coupling member 34 in the X direction and longer than the distance from a second position to a first position, described below, in the X direction. The dimension of the long hole 36C in the Y direction is longer than the dimension of the connection portion 34A in the Y direction. In this manner, the size of the long hole 36C is adjusted to the distance by which the link member 36 needs to move for the coupling member 34 to move forward in the Z direction. The hole wall of the long hole 36C is referred to as a hole wall portion 36D. At portions of the hole wall portion 36D facing in the Y direction and disposed on the −X side of the center of the long hole 36C in the X direction, overhanging portions 41 overhang from the hole wall portion 36D to the −Z side.
As illustrated in
On the other hand, while the end surface 36E and the contact surface 35 are in contact with each other, as illustrated in
As illustrated in
The link member 36 is moved independently of the covering 12 (see
Restricting Portion
The restricting portion 40 illustrated in
The thumb screw 62 includes a knob 63, having a cylindrical shape having an axis extending in the Z direction, and a shaft portion 64, having a cylindrical (stick) shape having an axis extending in the Z direction from the center of the knob 63. The shaft portion 64 has an outer diameter smaller than the outer diameter of the knob 63. The shaft portion 64 has an outer circumferential surface 64A. The outer diameter of the shaft portion 64 is determined to be insertable into the through hole 53 of the bracket 43. The length of the shaft portion 64 in the Z direction is the sum of the length that allows the link member 36 to switch (move) from the second position to the first position while the end of the shaft portion 64 is in contact with the end surface 36H of the link member 36 and the length that allows for a margin (play).
The shaft portion 64 includes, on the outer circumferential surface 64A, a screw portion 66, having an external screw 66A, and a non-screw portion 68, not having the external screw 66A. The screw portion 66 is disposed closer to the knob 63 (on the base end) than the center of the shaft portion 64 in the Z direction. The portion of the shaft portion 64 other than the screw portion 66 (including the distal end) is a non-screw portion 68. The non-screw portion 68 has a smaller outer diameter than the screw portion 66. The external screw 66A engages with the internal thread 18A (see
In the state where the fixing unit 32 is attached to the receiving member 13, the through hole 53 and the hole 18 (see
Operations
Operations according to the first exemplary embodiment are described now.
As illustrated in
Subsequently, as illustrated in
As illustrated in
As illustrated in
As described above, in the removable structure 30, the link member 36 is switched from the second position to the first position with an operation on the thumb screw 62 for restricting removal of the fixing unit 32 from the receiving member 13. This structure eliminates the need for separately performing an operation of restricting removal of the fixing unit 32 and an operation of switching the link member 36 from the second position to the first position. This structure thus simplifies the operation compared to the structure that separately performs the operation of restricting removal of the fixing unit 32 and the operation of switching the link member 36.
Moreover, the operation of switching the link member 36 between the first position and the second position is performed separately from the operation of opening and closing the covering 12 (see
In the removable structure 30, the direction in which the fixing unit 32 is attached to the receiving member 13 is aligned with the direction in which the link member 36 is switched with an operation on the thumb screw 62 to restrict removal of the fixing unit 32. Thus, an operator operates the thumb screw 62 while watching the fixing unit 32 that is to be attached to the receiving member 13. This structure facilitates an operation of switching the link member 36 compared to the structure in which the restricting device is moved in a first direction, and then in the cross direction to restrict removal of the fixing unit 32.
In the removable structure 30, the thumb screw 62 includes the screw portion 66 and the non-screw portion 68. In this structure, the link member 36 is switched with a simpler operation than in the structure including a thumb screw 62 having a screw portion 66 over the entire area since the thumb screw 62 is rotated for a shorter distance in the switching of the link member 36. Specifically, the link member 36 is switched to the first position by the non-screw portion 68 without rotating the thumb screw 62. Then, the thumb screw 62 is rotated using the screw portion 66, so that the fixing unit 32 is restricted from being removed. Thus, the fixing unit 32 is restricted from being removed with a simpler operation than in the structure including a thumb screw 62 having a screw portion 66 over the entire area.
In the image forming apparatus 10 illustrated in
An assembly removable structure and an image forming apparatus according to a second exemplary embodiment are described now as examples. Components or portions basically the same as those of the first exemplary embodiment are denoted with the reference signs the same as those of the first exemplary embodiment and not described.
The removable structure 80 includes a fixing unit 32, a coupling member 82 on the apparatus body 11, a link member 84, and a restricting portion 90. The coupling member 82 is an example of a connection member. The link member 84 is an example of a switch member. The restricting portion 90 is an example of a restricting device. The side plate 19 is disposed as an example of a partitioning member.
The fixing unit 32 includes a bracket 86, instead of the bracket 43 (see
The bracket 86 is attached to the −Y side end portion and the −Z side end portion of the front plate 42C with a screw, not illustrated. When viewed in the Y direction, the bracket 86 has a U-shaped cross section opening to the X side. The bracket 86 includes an attachment portion 86A, attached to the front plate 42C, and two supports 86B, extending to the X side from both end portions of the attachment portion 86A in the Z direction. The two supports 86B each have a through hole, not illustrated and extending through the support 86B in the Z direction.
Coupling Member
The coupling member 82 includes, for example, a connection portion 82A, having a cylindrical shape having an axis extending in the Z direction, and a shaft portion 82B, extending from the connection portion 82A to the −Z side in the Z direction. The connection portion 82A has a contact surface 83 having an annular shape when viewed from the −Z side in the Z direction. The coupling member 82 is rotatable in the apparatus body 11 about the axis extending in the Z direction.
The shaft portion 82B is supported by the guide members 37 disposed on the apparatus body 11 to be movable in the Z direction. The coupling member 82 is movable toward the side plate 19 to the Z side and away from the side plate 19 to the −Z side. The coupling member 82 is pulled to the −Z side by an extension spring 85 pulling the shaft portion 82B.
The connection portion 82A has multiple recesses, not illustrated, at intervals in the circumferential direction. These recesses are disposed to engage with protrusions, not illustrated, of the coupling member 48. Specifically, the coupling member 82 in a projecting state is connected to the coupling member 48. The coupling member 82 transmits the rotational force to the coupling member 48 by being driven to rotate by the driver 26 (see
Link Member
The link member 84 is disposed, for example, on the opposite side of the side plate 19 from the receiving member 13 (disposed on the −Z side opposite to the Z side). The link member 84 is formed of a plate member having a thickness in the Z direction and a height in the Y direction. The link member 84 has a cylindrical support shaft 87 at the center in the X direction. The support shaft 87 extends to the Y side and the −Y side. The support shaft 87 is supported by a bracket of the apparatus body 11, not illustrated, to be rotatable about the axis extending in the Y direction.
The link member 84 has a guide hole 88, extending through the link member 84 in the Z direction. When the link member 84 is viewed in the Y direction, the guide hole 88 is disposed at a portion of the link member 84 on the −X side of the support shaft 87. When viewed in the Y direction, the hole wall of the guide hole 88 has a surface curved in an arc having the support shaft 87 at the center. The guide hole 88 has a size capable of receiving the connection portion 82A and allowing the edge of the guide hole 88 and the contact surface 83 to come into contact with each other.
In the state where the link member 84 is not in contact with any object on the X side of the support shaft 87, the coupling member 82 is apart from the coupling member 48 to the −Z side. The position of the link member 84 in this state is referred to as a second position.
As illustrated in
As described above, the link member 84 is disposed on the side across from the receiving member 13. In other words, in the second exemplary embodiment, the side plate 19 is an example of a partitioning member that separates the opening 14 of the receiving member 13 from the space in which the link member 84 is disposed. The side plate 19 has a through hole 91 of a size capable of receiving a restricting pin 92, described below. The through hole 91 extends through the side plate 19 in the Z direction. Part of the link member 84 on the −Z side of the support shaft 87 is aligned with the through hole 91 in the Z direction. The link member 84 is operated independently of the covering 12 (see
Restricting Portion
The restricting portion 90 illustrated in
The restricting pin 92 has a cylindrical shape having an axis extending in the Z direction. The restricting pin 92 is inserted into through holes, not illustrated, in the two supports 86B of the bracket 86. Specifically, the restricting pin 92 is supported by the two supports 86B to be movable in the Z direction. The restricting pin 92 is disposed to face the through hole 91 in the Z direction while the fixing unit 32 is attached to the receiving member 13.
The lever member 94 includes, for example, a plate portion 94A, a plate portion 94B, a link portion 94C, and an operation portion 94D. The plate portions 94A and 94B are disposed to extend in the X-Y plane and to face each other at a distance apart from each other in the Z direction. The plate portion 94A is disposed on the −Z side and the plate portion 94B is disposed on the Z side. The plate portions 94A and 94B each have a through hole, not illustrated, into which the restricting pin 92 having its axis extending in the Z direction is inserted. The link portion 94C connects the X side end portions of the plate portions 94A and 94B in the Z direction. The operation portion 94D extends to the X side from the center of the link portion 94C in the Z direction.
The coil spring 96 is held between the plate portion 94A and the support 86B on the Z side to contract or expand in the Z direction. While the coil spring 96 is held between the plate portion 94A and the support 86B on the Z side, the restricting pin 92 is inserted into through holes, not illustrated, of the plate portion 94B, the support 86B on the Z side, the plate portion 94A, and the support 86B on the −Z side. Here, the restricting pin 92 is also inserted into the coil spring 96. The restricting pin 92 is prevented from being removed from the bracket 86 and the lever member 94 while having an E-ring, not illustrated, attached to its outer peripheral portion while the −Z side end portion is protruding to the −Z side beyond the support 86B.
Here, as illustrated in
Operation
The operation of the second exemplary embodiment is described now.
When the fixing unit 32 illustrated in
Subsequently, as illustrated in
When the restricting pin 92 comes into contact with the hole wall of the through hole 91, the fixing unit 32 is restricted from moving to the X side. Specifically, the fixing unit 32 is restricted from being removed from the receiving member 13. To remove the fixing unit 32 from the receiving member 13, the operation portion 94D is operated to the Z side to pull the restricting pin 92 out of the through hole 91, so that the fixing unit 32 is allowed to be removed.
As described above, in the removable structure 80, the restricting pin 92 switches the link member 84 from the second position to the first position with an operation of restricting removal of the fixing unit 32 from the receiving member 13. This structure eliminates the need of separately performing the operation of restricting the fixing unit 32 from being removed and the operation of switching the link member 84 from the second position to the first position. This structure simplifies the operation compared to the structure that separately performs the operation of restricting the fixing unit 32 from being removed and the operation on the link member 84.
The operation of switching the link member 84 from the first position to the second position is performed independently of opening and closing of the covering 12 (see
In the removable structure 80, the direction (X direction) in which the fixing unit 32 is attached to or removed from the receiving member 13 crosses (is perpendicular to) the direction (Z direction) in which the restricting pin 92 is operated to switch the link member 84. This structure more strictly restricts the movement of the restricting pin 92 in the X direction than the structure that allows the restricting pin 92 to move in the X direction to restrict the fixing unit 32 from being removed. Specifically, the position of the restricting pin 92 is prevented from being displaced in the X direction from a predetermined position. This structure enhances the accuracy of the position of the fixing unit 32 in the X direction, attached to the receiving member 13.
In the removable structure 80, the coil spring 96 presses the restricting pin 92 against the link member 84. The direction in which the coil spring 96 exerts a pressing force on the restricting pin 92 is the direction in which the link member 84 moves to the first position. Specifically, the link member 84 receives the pressing force directed in the direction in which the coupling members 82 and 48 are connected together. This structure more effectively prevents the coupling members 82 and 48 from being disconnected from each other than the structure that does not include the coil spring 96.
In the removable structure 80, the side plate 19 separates the opening 14 of the receiving member 13 from the space in which the link member 84 is disposed. This structure prevents the link member 84 from being directly operated through the opening 14 and thus more effectively prevents the link member 84 from being mishandled than the structure that does not include the side plate 19.
In the image forming apparatus 10 according to the second embodiment, the rotational force caused in the driver 26 (see
The present invention is not limited to the above-described exemplary embodiments.
The connectors 106 and 108 each include multiple terminals, not illustrated, and are capable of being energized while being connected together. The connector 106 is movable forward and backward in the Z direction. A power supply 21 energizes the connectors 106 and 108. A halogen heater 45 is an example of a heat generator. The halogen heater 45 generates heat when energized by the power supply 21 through the connectors 106 and 108 to fix a toner image G (see
The image forming apparatus 100 prevents connection portions (terminals) of the connectors 106 and 108 from being degraded with the effects the same as those of the removable structure 30 according to the first exemplary embodiment. This structure further reduces variation of power fed to the halogen heater 45 than the structure not including the removable structure 30. This structure thus prevents the amount of heat fed to the toner fixed to the sheet P from falling below the predetermined amount of heat, and thus reduces defects (such as a cold-offset) of the toner image G.
In the removable structure 30, for example, a plate member extending in the Y-Z plane may be moved in the Y direction to restrict the fixing unit 32 from being removed and to move the link member 36 to the first position. In the removable structure 30, the shaft portion 64 of the thumb screw 62 may have the screw portion 66 throughout the shaft portion 64. The removable structure 30 may omit the side plate 19. In the removable structure 30, a plate member may be disposed between the bracket 43 and the link member 36 as an example of a partitioning member.
In the removable structure 80, for example, a plate member extending in the Y-Z plane may be moved in the Y direction to restrict the fixing unit 32 from being removed and may be brought into contact with the link member 84 to move the link member 84 to the first position. The removable structure 80 may omit the coil spring 96. The removable structure 80 may include the connectors 106 and 108.
The assembly is not limited to the fixing unit 32 and may be, for example, the image forming unit 25, the transfer unit 27, or a unit for correcting bends of the sheets P.
The fixing unit 32 may be attached and removed in the Z direction or the Y direction instead of the X direction. The direction in which a restricting device is operated may be determined to be a direction the same as or crossing the direction in which the fixing unit 32 is attached or removed.
Instead of the bottom plate 15, the front plate 17, and the side plate 19 that cover the entirety of contact portions between the link member 36 and the thumb screw 62, the partitioning member may cover part of the contact portions.
A rotator may be, instead of the fixing roller 44, a fixing belt or a transfer roller of a transfer unit.
The thumb screw 62 may be held or not held by the fixing unit 32 (bracket 43) in the state where the fixing unit 32 is removed from the receiving member 13. The thumb screw 62 is not limited to have a structure that restricts removal of the fixing unit 32 within the range of the screw portion 66 after the link member 36 is switched within the range of the non-screw portion 68. Specifically, the thumb screw 62 may perform part of switching of the link member 36 and restriction on the fixing unit 32 within the range of the screw portion 66.
The foregoing description of the exemplary embodiments of the present invention has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, thereby enabling others skilled in the art to understand the invention for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.
Number | Date | Country | Kind |
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2017-116122 | Jun 2017 | JP | national |
Number | Name | Date | Kind |
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20040190939 | Yamanaka | Sep 2004 | A1 |
20160033929 | Takahashi | Feb 2016 | A1 |
Number | Date | Country |
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H11126009 | May 1999 | JP |