In some imaging apparatuses including an image carrier and a lubricant application device which applies a lubricant to the image carrier, the lubricant application device includes a lubricant coating roller which applies a lubricant to the image carrier and a pressing unit that presses and urges a lubricant to the lubricant coating roller. The pressing unit may include a lubricant casing which stores a lubricant and a pressing spring which is accommodated in the lubricant casing and presses the lubricant toward the image carrier.
In the following description, with reference to the drawings, the same reference numbers are assigned to the same components or to similar components having the same function, and overlapping description is omitted. In some examples, an imaging system may include an imaging apparatus such as a printer or the like. In some examples, the imaging system may include a lubricant application device used in an imaging apparatus or the like, or a lubricant application device provided separately from an imaging apparatus or the like.
The conveying device 10 may convey the sheet P which may correspond to a recording medium having an image formed thereon, along a conveying route R1. The sheet P may be stacked and accommodated on a cassette C and may be picked up and conveyed by a feeding roller 11. The conveying device 10 may allow the sheet P to reach a transfer nip portion R2 at a timing in which the toner image transferred to the sheet P reaches the transfer nip portion R2.
One developing device 20 may be provided for each of the four colors. Each developing device 20 may include a developing agent carrier 21 which carries toner on the image carrier 40. In the developing device 20 a two-component developing agent including toner and carrier may be used as a developing agent. The toner and the carrier may be adjusted to a selected or suitable mixing ratio and the toner and the carrier may be mixed and stirred to uniformly disperse the toner. Accordingly, the developing agent may be adjusted to obtain an optimal or suitable charge amount. The developing agent is carried by the developing agent carrier 21. The developing agent carrier 21 rotates to convey the developing agent to a region facing the image carrier 40. The toner in the developing agent carried on the developing agent carrier 21 may be transferred to the electrostatic latent image formed on an outer peripheral surface 40a of the image carrier 40 so that the electrostatic latent image is developed.
The transfer device 30 may convey a toner image formed by the developing device 20 to the transfer nip portion R2. The transfer device 30 may secondarily transfer the toner image to the sheet P via the transfer nip portion R2. The transfer device 30 may include a transfer belt 31 to which the toner image is primarily transferred from the image carrier 40, suspension rollers 32a, 32b, 32c, and 32d on which the transfer belt 31 is suspended, a primary transfer roller 33 which sandwiches the transfer belt 31 along with the image carrier 40, and a secondary transfer roller 34 which sandwiches the transfer belt 31 along with the suspension roller 32d.
The transfer belt 31 may be an endless belt which moves in a circulating manner by way of the suspension rollers 32a, 32b, 32c, and 32d. Each of the suspension rollers 32a, 32b, 32c, and 32d is a roller which is rotatable about each axis. The suspension roller 32d may be a drive roller which rotates about the axis. Each of the suspension rollers 32a, 32b, and 32c may be a driven roller which is rotated by the rotational driving of the suspension roller 32d. The primary transfer roller 33 may press against the image carrier 40 from the inner peripheral side of the transfer belt 31. The secondary transfer roller 34 may be disposed substantially in parallel to the suspension roller 32d with the transfer belt 31 interposed therebetween and may press against the suspension roller 32d from the outer peripheral side of the transfer belt 31. Accordingly, the secondary transfer roller 34 may form the transfer nip portion R2 between the secondary transfer roller and the transfer belt 31. For example, the transfer nip portion R2 is formed between the secondary transfer roller 34 and the transfer belt 31.
The image carrier 40 may also be referred to as an electrostatic latent image carrier, a photosensitive drum, or the like. One image carrier 40 may be provided for each of the four colors. Each image carrier 40 may be provided along the movement direction of the transfer belt 31. For example, the image carriers 40 may be spaced apart along the movement direction of the transfer belt 31. A number of components and devices may be mounted adjacent each of the image carriers 40. For example, the developing device 20, a charging roller 41, an exposure unit 42, a cleaning device 70, and a lubricant application device 80 may be provided at a position facing the outer peripheral surface 40a of the image carrier 40.
The example imaging apparatus 1 may include a process cartridge 2 and an apparatus body 3. The process cartridge 2 may integrally include the developing device 20, the image carrier 40, the charging roller 41, the cleaning device 70, and the lubricant application device 80. The apparatus body 3 may include a casing which accommodates the process cartridge 2. The process cartridge 2 may be attachable to or detachable from the apparatus body 3 in such a manner that a door of the apparatus body 3 is opened and the process cartridge is inserted into or removed from the apparatus body 3.
The charging roller 41 may include a charging member that uniformly charges a surface of the image carrier 40 to a predetermined potential. The charging roller 41 may be driven to follow the rotation of the image carrier 40. The exposure unit 42 may expose a surface (outer peripheral surface 40a) of the image carrier 40 charged by the charging roller 41 in response to an image formed on the sheet P. Accordingly, a potential of a portion exposed by the exposure unit 42 in the surface of the image carrier 40 may be changed so that an electrostatic latent image is formed. For example, four developing devices 20 may form the toner images by developing the electrostatic latent image formed on the image carriers 40 using the toner supplied from each of the toner tanks N respectively facing the developing devices 20. The toner tanks N may be filled with, for example, magenta toner, yellow toner, cyan toner, and black toner, respectively.
The fixing device 50 may allow the sheet P to pass through a fixing nip portion R3 for heating and pressing the sheet so that the toner image secondarily transferred from the transfer belt 31 to the sheet P is adhered and fixed to the sheet P. The fixing device 50 may include a heating roller 51 which heats the sheet P and a pressing roller 52 which presses and rotates the heating roller 51. Each of the heating roller 51 and the pressing roller 52 may have a cylindrical shape, and the heating roller 51 may include a heat source such as a halogen lamp provided therein. The fixing nip portion R3 may be a contact region provided between the heating roller 51 and the pressing roller 52. The fixing device 50 allows the sheet P to pass through the fixing nip portion R3 so that the toner image may be heat-fused and fixed to the sheet P. The example imaging apparatus 1 may be provided with discharge rollers 55 and 56 which discharge the sheet P having the toner image fixed thereto by the fixing device 50, to the outside of the imaging apparatus 1.
An example printing process which may be carried out by the example imaging apparatus 1 will be described. When an image signal of a recording target image is input to the imaging apparatus 1, a control unit of the imaging apparatus 1 outputs a control to rotate the feeding roller 11 so that the sheet P stacked on the cassette C is picked up and conveyed. The outer peripheral surface 40a of the image carrier 40 is uniformly charged to a predetermined potential by the charging roller 41 (a charging operation). A laser beam may be irradiated to the outer peripheral surface 40a of the image carrier 40 by the exposure unit 42 on the basis of the received image signal to form an electrostatic latent image (an exposing operation).
In the developing device 20, the electrostatic latent image is developed and a toner image is formed (a developing operation). The toner image which is formed in this way may be primarily transferred from the image carrier 40 to the transfer belt 31 in a region in which the image carrier 40 and the transfer belt 31 face each other (a transferring operation). The toner images formed on four image carriers 40 may be sequentially layered on the transfer belt 31 so that a single composite toner image is formed. The composite toner image may be secondarily transferred to the sheet P conveyed from the conveying device 10 in the transfer nip portion R2 in which the suspension roller 32d faces the secondary transfer roller 34.
The sheet P to which the composite toner image is secondarily transferred may be conveyed to the fixing device 50. The fixing device 50 may heat-fuse and fix the composite toner image to the sheet P by heating and pressing the sheet P between the heating roller 51 and the pressing roller 54 when the sheet P passes through the fixing nip portion R3 (a fixing operation). The sheet P may be discharged to the outside of the imaging apparatus 1 by the discharging rollers 55 and 56.
The example imaging apparatus 1 includes the cleaning device 70 and the lubricant application device 80. The cleaning device 70 may collect the toner remaining on the image carrier 40 after the toner image formed on the image carrier 40 is primarily transferred to the transfer belt 31. With reference to
With reference to
In
With reference to
The lubricant roller 83 may be disposed at a position in which the lubricant roller can contact the outer peripheral surface 40a of the image carrier 40. The lubricant roller 83 may include a coating roller which applies a lubricant to the outer peripheral surface 40a of the image carrier 40. The lubricant roller 83 may be a bristle brush, for example. A rotation shaft of the lubricant roller 83 may be held by a bearing provided in the main body 82. The lubricant roller 83 may be driven to rotate by power transmitted from a motor driving the image carrier 40. A power transmission mechanism which transmits power to the lubricant roller 83 may include, for example, a gear, a belt, and the like.
The lubricant application device 80 may include, as illustrated in
The lubricant unit 84 may include a casing 87 having an opening portion 86. A lubricant storage portion 88 which stores the lubricant 81 may be provided inside the casing 87. The casing 87 may be pivotable with respect to the main body through a pivotable connection portion (or pivot connection), to be opened or closed. A position of the casing 87 in an open state is set to an open position and a position of the casing 87 in a closed state is set to a closed position. The casing 87 is displaceable between the open position and the closed position. In
The casing 87 may include a cover plate 91. In the closed state, the cover plate 91 may be disposed at an opposite side to the image carrier 40 with respect to the lubricant roller 83, as illustrated in
With reference to
In the closed position, the second plate 93 may be disposed at substantially the same position as that of the lubricant roller 83 in the Z direction. In the closed position, the second plate 93 may protrude obliquely downward from the lower end portion of the cover plate 91. The second plate 93 protrudes to approach the lubricant roller 83.
The casing 87 may include a pair of side plates 94 and 95. The side plates 94 and 95 may be spaced apart from each other in the X direction as illustrated in
The lubricant 81 may have a block shape. For example, the lubricant 81 may be formed in a prismatic shape. The lubricant 81 may be supplied to the outer peripheral surface 40a of the image carrier 40 to prevent the abrasion of the outer peripheral surface 40a, in order to improve the durability of the image carrier 40. In some examples, the lubricant 81 may include a metal soap. The lubricant 81 may be formed of a material containing zinc stearate in some examples.
With reference to
With reference to
The casing 87 may include a pair of pins 102, each pin 102 having a columnar shape. The pin 102 includes a first end portion 102a and a second end portion 102b. The first end portion 102a is a front end portion and the second end portion 102b is a base end portion. The pin 102 may be connected to the cover plate 91. The base end portion of the pin 102 may be connected to the cover plate 91 through a pin base 106. The pin base 106 protrudes in the radial direction of the pin 102. In the pair of pins 102, one pin 102 is set as a first pin 107 and the other pin is set as a second pin 108. The first pin 107 may be supported by the first bearing 104. The second pin 108 may be supported by the second bearing 105.
The first end portion 102a of the first pin 107 protrudes from the pin base 106 in a first direction. The first end portion 102a of the second pin 108 protrudes from the pin base 106 in the first direction. The first pin 107 and the second pin 108 protrude in the same direction. The pin base 106 connected to the first pin 107 is connected to the side plate 94 of the cover plate 91. The pin base 106 connected to the first pin 107 may be connected to the first end portion 91a of the cover plate 91. The pin base 106 connected to the second pin 108 may be connected to the second end portion 91b of the cover plate 91.
The pin 102 may be separated from the bearing 103 when moving in a second direction, where the second direction is opposite to the first direction. Accordingly, the lubricant unit 84 can be separated from the main body 82. The first direction and the second direction are set to follow the X direction.
The bearing 103 may be disposed, as illustrated in
With reference to
With reference to
In some examples, the gap 113 between the guide 110 and the second bearing 105 supporting the second pin 108 may be a space through which the first pin 107 can pass. The first pin 107 separated from the first bearing 104 may be displaced along the guide 110 to a position in which the first pin can contact the second bearing 105. Since the gap 113 is formed between the guide 110 and the second bearing 105 in the X direction, the first pin 107 is movable upward through the gap 113.
With reference to
With reference to
The main plate 117 may be disposed to face the outer wall of the main body 82 in the Y direction. The plate thickness direction of the main plate 117 may extend in the Y direction. A space may be formed between the main plate 117 and the outer wall of the main body 82. The main plate 117 may be disposed at the outside of the bearing 103 in the Y direction. The outside in the Y direction may indicate an opposite side to the image carrier 40 with respect to the lubricant roller 83. The bottom plate 116 may extend in the Y direction from the outer wall of the main body 82. The plate thickness direction of the bottom plate 116 may extend in the Z direction. The bottom plate 116 may be connected to the lower end portion of the main plate 117. The bottom plate 116 closes the gap between the outer wall of the main body 82 and the main plate 117 from below. The pair of end plates 118 may be disposed to be spaced apart in the X direction. The plate thickness direction of the end plate 118 may extend in the X direction. The end plate 118 may protrude in the Y direction from the outer wall of the main body 82. The end plate 118 may be connected to the end portion of the bottom plate 116 and the end portion of the end plate 118 in the X direction. The pair of end plates 118 may close the gap between the outer wall of the main body 82 and the main plate 117 from both sides in the X direction.
The lubricant application device 80 may include a stopper 119 which regulates the rotation angle (the pivot range) of the casing 87. The stopper 119 may be provided in the main body 82 and contact the casing 87 when the casing 87 is disposed in the open position. The stopper 119 may include the main plate 117 of the waste toner storage portion 115. The upper end portion of the main plate 117 may contact the casing 87 to define the open position of the casing 87. The casing 87 may include a contact portion 120 which can contact the stopper 119. The contact portion 120 may contact the stopper 119 in the closed position and move away from the stopper 119 (e.g. the contact portion 120 does not contact the stopper 119) in the open position. In the contact portion 120, the casing 87 located in the closed position is indicated by a two-dotted chain line in
With reference to
With reference to
The main body side guide member 121 may be provided with a concave portion or recessed portion (e.g. a first concave portion) 122 which is recessed in the Y direction toward the opposite side to the image carrier 40, relative to the lubricant unit 84. The concave portion 122 extends in the X direction. The concave portion 122 may be formed at the same position as the convex portion 87a of the lubricant unit 84 in the open position as viewed from the X direction. The convex portion 87a in the open position can pass through the concave portion 122 in the X direction.
The main body side guide member 121 may be provided with a concave portion (a second concave portion) 123 which is recessed upward in the Z direction and extends in the X direction. The concave portion 123 may be formed at a same position as the convex portion 87a of the lubricant unit 84 in the closed position as viewed from the X direction. The convex portion 87a in the closed position can pass through the concave portion 123 in the X direction.
The lubricant unit 84 may include, as illustrated in
In the example imaging apparatus 1, the casing 87 of the lubricant unit 84 may be closed in a normal operational state. In this closed state, the lubricant roller 83 contacts the outer peripheral surface 40a of the image carrier 40 and contacts the lubricant 81, as illustrated in
Since the casing 87 is pivotable with respect to the main body 82, the lubricant 81 can be disposed in a position spaced away from the lubricant roller 83 (e.g. not contacting the lubricant roller 83) in the open position of the casing 87. The user of the imaging apparatus 1 can replenish the lubricant 81, for example, when the amount of the lubricant 81 remaining in the lubricant storage portion 88 is small. In some examples, the user opens the casing 87 when replenishing the lubricant 81, by opening the door of the apparatus body 3 and operating a knob 91c of the cover plate 91.
As illustrated in
In the example imaging apparatus 1, it is possible to move the lubricant unit 84 in the X direction to be separated from the main body 82 while the opening portion 86 is disposed upward. When replenishing the lubricant 81, the user can extract the lubricant unit 84 in the X direction by pulling the knob 91c of the cover plate 91. As illustrated in
In the example imaging apparatus 1, the lubricant unit 84 replenished with the lubricant 81 can be attached to the main body 82. The opening portion 86 is disposed upward when attaching the lubricant unit 84, in order to hold or support the lubricant 81 (e.g. the dropping of the lubricant 81 is prevented). In the example imaging apparatus 1, the lubricant unit 84 may be separated from the main body 82, in order to allow the lubricant 81 to be easily replenished. In the example imaging apparatus 1, the lubricant unit 84 may be separated while the image carrier 40 is attached to the main body 82, it is possible to prevent the image carrier 40 from being exposed to light. As a result, it is possible to prevent deterioration of the image carrier 40.
The first pin 107 is guided by the guide 110 when separating the lubricant unit 84 from the main body 82, to allow a smoother movement of the lubricant unit 84.
In the example imaging apparatus 1, the waste toner storage portion 115 is disposed below the hinge 101. Accordingly, the residual lubricant 81 and the waste toner collected inside the casing 87 are stored in the waste toner storage portion 115, to prevent or reduce leakage to the outside of the lubricant 81 and waste toner.
In the example imaging apparatus 1, the stopper 119 may limit the open position of the casing 87 (e.g. the open position of the casing 87 can be defined). Additionally, the stopper 119 is continuous in the X direction, and can be used as a guide when moving the lubricant unit 84, to move the lubricant unit 84 more smoothly.
The example imaging apparatus 1 includes the main body side guide member 121 provided with the concave portion 122 as illustrated in
In the example imaging apparatus 1, the lubricant unit 84 can be separated from the apparatus body 3 along with the main body 82 while the casing 87 is operated in the closed position. For example, the process cartridge 2 integrally including the developing device 20, the image carrier 40, the charging roller 41, the cleaning device 70, and the lubricant application device 80 may be separated from the apparatus body 3. The example imaging apparatus 1 includes the main body side guide member 121 provided with the concave portion 123. Accordingly, it is possible to position the lubricant unit 84 by using the position of the concave portion 123 as a mark when attaching the process cartridge 2. The positioning of the lubricant unit 84 allows positioning the process cartridge 2 with respect to the apparatus body 3.
For example, when the process cartridge 2 is replaced, the lubricant unit 84 having a new lubricant 81 can be used. For example, the lubricant 81 may be replenished by opening or closing the casing 87 of the lubricant unit 84 in the process cartridge 2 of the apparatus body 3. For example, the lubricant roller 83 may be inspected, repaired, and replaced by opening or closing the casing 87 in the process cartridge 2.
As illustrated in
The drawing member 132 may be connected to an end portion 81b of the lubricant 81 in the width direction. The width direction is set to a direction intersecting the longitudinal direction. In a state in which the lubricant 81 is stored in the lubricant storage portion 88, the drawing member 132 may be disposed to protrude toward the opening portion 86. For example, when the casing 87 is disposed in the open position, the drawing member 132 may protrude upward. The drawing member 132 may be provided at both end portions of the lubricant 81 in the width direction.
As illustrated in
As illustrated in
The main body 82 of the imaging apparatus 1 may include a first housing 141 which accommodates the image carrier 40 and a second housing 142 which accommodates the lubricant roller 83. The second housing 142 may be pivotably connected to the first housing 141 through the pivotable connection portion (e.g. the hinge 101) and is displaceable between the closed position and the open position. The second housing 142 which accommodates the lubricant roller 83 may be disposed in the open position while being pivoted along with the lubricant unit 84 as illustrated in
The main body 82 may include another pivotable connection portion (or pivot connection) different from the hinge 101. The second housing 142 may be pivotably connected to the first housing 141 through another pivotable connection portion (or pivot connection). The second housing 142 may be opened or closed with respect to the first housing 141 through another pivotable connection portion (or pivot connection). A driving source for driving the lubricant roller 83 may be the same as or different from the driving source for driving the image carrier 40. A power transmission mechanism for transmitting driving power to the lubricant roller 83 may include a coupling member for example. The coupling member may connect a plurality of power transmission members in an attachable or detachable manner. The coupling member may separate or connect the power transmission members in response to the pivoting operation of the second housing supporting the lubricant roller 83.
It is to be understood that not all aspects, advantages and features described herein may necessarily be achieved by, or included in, any one particular example. Indeed, having described and illustrated various examples herein, it should be apparent that other examples may be modified in arrangement and detail.
One or more of the examples described above and/or features thereof may be expressed by the following clauses.
Clause 1. An imaging system including:
a main body which accommodates a roller; and
a lubricant unit which includes a casing having an opening and a lubricant storage disposed inside the casing and storing the lubricant,
in which the casing is pivotably connected to the main body through a pivotable connection and is displaceable between a closed position and an open position,
in which in the closed position, the lubricant storage is disposed in a position in which the lubricant is able to be supplied to the roller through the opening in a contact state,
in which in the open position, the lubricant storage is disposed so that the opening is exposed to an outside of the main body,
in which the pivotable connection is disposed below the casing while the casing is disposed in the closed position, and
in which the opening of the casing is disposed upward while the casing is disposed in the open position.
Clause 2. The imaging system according to clause 1,
in which the pivotable connection includes a hinge and the hinge includes a pin and a bearing receiving the pin, and
in which the pin is separable from the bearing and the lubricant unit is connected to the main body in an attachable and detachable manner.
Clause 3. The imaging system according to clause 2,
in which the hinge defines a rotation center axis of the casing with respect to the main body,
in which the main body includes a pair of bearings including the bearing and the bearings are arranged along the rotation center axis and are separated from each other in the extension direction of the rotation center axis,
in which the casing includes a pair of pins including the pin,
in which the pin includes a pin base provided in the casing and a pin tip portion insertable into the bearing,
in which the pin tip portion protrudes from the pin base in a first direction along the rotation center axis, and
in which the pin moves in a second direction opposite to the first direction from the bearing so that the lubricant unit is separated from the main body.
Clause 4. The imaging system according to clause 2 or 3,
in which the main body includes a guide which extends between the pair of bearings and guides the pin in the first direction and the second direction.
Clause 5. The imaging system according to any one of clauses 1 to 4,
in which the opening is relatively disposed downward while the casing is disposed in the closed position.
Clause 6. The imaging system according to any one of clauses 1 to 5, including:
a waste toner storage which is disposed below the pivotable connection and includes a concave portion recessed downward.
Clause 7. The imaging system according to any one of clauses 1 to 6, including:
a stopper which is provided in the main body and to contact the casing to define the position of the casing when the casing is located in the open position; and
a contact portion which is provided in the casing and is able to contact the stopper.
Clause 8. The imaging system according to clause 7,
in which the stopper is continuous in the extension direction of the rotation center axis of the casing.
Clause 9. The imaging system according to clause 2, including:
a main body side guide member that is disposed at an outside of the roller in the longitudinal direction of the roller and is connected to an apparatus body,
in which the casing includes a convex portion which protrudes outwardly in the radial direction of the rotation center axis of the casing and is continuous in the extension direction of the rotation center axis, and
in which the main body side guide member is provided with a concave portion through which the convex portion is able to pass in the extension direction of the rotation center axis.
Clause 10. The imaging system according to any one of clauses 1 to 9,
in which the lubricant is provided with a drawing member that protrudes toward the opening while the lubricant is stored in the lubricant storage.
Clause 11. An imaging system including:
a photosensitive drum which includes an outer peripheral surface;
a lubricant roller which is disposed adjacent to the photosensitive drum to apply a lubricant to the outer peripheral surface of the photosensitive drum;
a main body which accommodates the photosensitive drum and the lubricant roller; and
a lubricant unit which is disposed adjacent to the lubricant roller and includes a casing having an opening and a lubricant storage disposed inside the casing and storing the lubricant,
in which the casing is connected to the main body through a hinge to be pivotable and detachable and is displaceable between a closed position and an open position,
in which in the closed position, the lubricant storage is disposed at a position in which the lubricant is able to be supplied to the lubricant roller through the opening in a contact state,
in which in the open position, the lubricant storage is disposed so that the opening is exposed to the outside of the main body,
in which the hinge is disposed below the casing so that the opening of the casing is disposed downward while the casing is disposed in the closed position, and
in which the opening of the casing is disposed upward while the casing is disposed in the open position.
Clause 12. The imaging system according to clause 11,
in which the hinge defines a rotation center axis of the casing with respect to the main body,
in which the main body includes a pair of bearings, and
in which the bearings are disposed along the rotation center axis and are separated from each other in the extension direction of the rotation center axis.
Clause 13. The imaging system according to clause 12,
in which the casing includes a pair of pins including a pin base,
in which a tip portion of the pin is insertable into the bearing,
in which the tip portion of the pin protrudes from the pin base in a first direction along the extension direction of the rotation center axis, and
in which the pin is movable in a second direction opposite to the first direction to be separated from the bearing and the lubricant unit is separable from the main body.
Clause 14. An imaging system including:
a photosensitive drum which includes an outer peripheral surface;
a lubricant roller which is disposed adjacent to the photosensitive drum to apply a lubricant to the outer peripheral surface of the photosensitive drum;
a main body which accommodates the photosensitive drum; and
a lubricant unit which is disposed adjacent to the lubricant roller and includes a casing having an opening and a lubricant storage disposed inside the casing and storing the lubricant,
in which the casing is connected to the main body through a hinge to be pivotable and detachable and is displaceable between a closed position and an open position,
in which the main body includes a first housing which accommodates the photosensitive drum and a second housing which accommodates the lubricant roller, and
in which the second housing and the lubricant roller are pivotable with respect to the first housing along with the casing.
Clause 15. The imaging system according to clause 14,
in which in the closed position, the lubricant storage is disposed at a position in which the lubricant is able to be supplied to the lubricant roller through the opening,
in which in the open position, the lubricant storage is disposed so that the opening is exposed to the outside of the main body,
in which in a state in which the casing is disposed in the closed position, the hinge is disposed below the casing and the opening of the casing is disposed downward, and in which in a state in which the casing is disposed in the open position, the opening of the casing is disposed upward.
Number | Date | Country | Kind |
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2018-195139 | Oct 2018 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/US2019/027657 | 4/16/2019 | WO | 00 |