The present disclosure relates to a toner cartridge.
A toner cartridge including a casing for storing toner and a detection gear is well known in the art. In a state where the toner cartridge is attached to an image-forming apparatus, the detection gear is configured to rotate from a first position to a second position. In a state where the detection gear is rotated to the second position from the first position, the detection gear is positioned between a light-emitting element of the image-forming apparatus and a light-receiving element of the image-forming apparatus so that the detection gear can block light emitted from the light-emitting element. The light-emitting element and the light-receiving element may be both disposed near one end of the casing of the toner cartridge in a state where the toner cartridge is attached to the image-forming apparatus.
In view of the foregoing, it is an object of the present disclosure to provide a toner cartridge that allows movement of a detection gear to be detected through a light-emitting element of an image-forming apparatus and a light-receiving element of the image-forming apparatus, even when a casing of the toner cartridge is positioned between the light-emitting element and the light-receiving element in a state where the toner cartridge is attached to the image-forming apparatus.
In order to attain the above and other objects, there is provided a toner cartridge including a casing, an auger, an auger gear, an agitator, an agitator gear, and a detection gear. The casing is configured to accommodate toner therein. The auger is rotatable about a first axis extending in a first direction and is configured to convey the toner in the first direction. The auger is positioned at one end portion of the casing in a second direction. The auger gear is provided at one end of the auger in the first direction. The auger gear is rotatable with the auger. The agitator is rotatable about a second axis extending in the first direction. The agitator is configured to agitate the toner and is configured to convey the toner toward the auger. The agitator is aligned with the auger in the second direction. The agitator gear is provided at one end of the agitator in the first direction and is rotatable with the agitator. The detection gear is positioned opposite to the auger gear with respect to the agitator gear in the second direction. The detection gear is rotatable from a first position to a second position. The detection gear includes one of a through-hole and a cutout. In a case where the detection gear is at the first position, the one of the through-hole and the cutout of the detection gear is positioned farther away from the auger than an outer surface of another end portion of the casing in the second direction is from the auger in the second direction. In a case where the detection gear is at the second position, an outer surface of a portion of the detection gear different from the one of the through-hole and the cutout is positioned farther away from the auger than the outer surface of the another end portion of the casing in the second direction is from the auger in the second direction.
According to another aspect, there is provided a toner cartridge including a casing, an auger, an auger gear, an agitator, an agitator gear, and a detection gear. The casing is configured to accommodate toner therein. The auger is rotatable about a first axis extending in a first direction and is configured to convey the toner in the first direction. The auger is positioned at one end portion of the casing in a second direction. The auger gear is positioned at one end of the auger in the first direction and is rotatable with the auger. The agitator is rotatable about a second axis extending in the first direction. The agitator is configured to agitate the toner and configured to convey the toner toward the auger. The agitator is aligned with the auger in the second direction. The agitator gear is positioned at one end of the agitator in the first direction and is rotatable with the agitator. The detection gear is positioned opposite to the auger gear with respect to the agitator gear in the second direction. The detection gear is rotatable from a first position to a second position. The detection gear includes a light-transmission portion and a light-blocking portion. In a case where the detection gear is at the first position, the light-transmission portion of the detection gear is positioned farther away from the auger than an outer surface of another end portion of the casing in the second direction is from the auger in the second direction. In a case where the detection gear is at the second position, the light-blocking portion of the detection gear is positioned farther away from the auger than the outer surface of the another end portion of the casing in the second direction is from the auger in the second direction.
In the drawings:
Hereinafter, a toner cartridge 1 according to an embodiment of the disclosure will be described with reference to
1. Overview of the Toner Cartridge 1
As shown in
1.1 Casing 2
The casing 2 is configured to accommodate toner therein. As shown in
The first accommodation portion 2A extends in the first direction. The first accommodation portion 2A has a hollow cylindrical shape and has a generally circular-shaped cross-section, as shown in
As shown in
1.2 Auger 3
As shown in
Specifically, the auger 3 includes an auger shaft 3A and a helical portion 3B. The auger shaft 3A defines the first axis A1 and extends along the first axis A1 in the first direction. The auger shaft 3A has one end (see
1.3 Agitator 4
Referring to
Specifically, the agitator 4 includes an agitator shaft 4A and a main portion 4B. The agitator shaft 4A defines the second axis A2 and extends along the second axis A2 in the first direction. The agitator shaft 4A has one end in the first direction. The one end of the agitator shaft 4A is positioned outside the casing 2. In other words, the agitator 4 has one end in the first direction that is positioned outside the casing 2. The main portion 4B is positioned at an outer surface of the agitator shaft 4A. The main portion 4B extends radially outward from the outer surface of the agitator shaft 4A. That is, the main portion 4B extends in a radial direction of the second accommodation portion 2B. The main portion 4B is thus rotatable with the agitator shaft 4A. The main portion 4B is positioned inside the casing 2. More specifically, the main portion 4B is positioned in the second accommodation portion 2B. The main portion 4B is configured to convey the toner in the second accommodation portion 2B in the second direction toward the auger 3 while the agitator 4 rotates.
1.4 First Protrusion 5 and Second Protrusion 6
As shown in
The second protrusion 6 is positioned at the second end portion E2 of the casing 2 in the first direction. The second protrusion 6 is positioned opposite to the auger gear 11 with respect to the casing 2 in the first direction. More specifically, the second protrusion 6 is positioned opposite to the first accommodation portion 2A with respect to the toner outlet 2C in the first direction. The second protrusion 6 extends in the first direction as well as in the second direction.
1.5 Auger gear 11
As shown in
1.6 Agitator Gear 12
The agitator gear 12 is fixed to the one end of the agitator 4 in the first direction that is positioned outside of the casing 2 to be exposed therefrom. Specifically, the agitator gear 12 is fixed to the one end of the agitator shaft 4A in the first direction that is exposed outside from the casing 2. The agitator gear 12 is positioned at the first end portion E1 of the casing 2 in the first direction. The agitator gear 12 is thus rotatable with the agitator 4. Referring to
1.7 Idle Gear 13
The idle gear 13 is positioned at the first end portion E1 of the casing 2 in the first direction. More specifically, the idle gear 13 is rotatably attached to the first end portion E1 of the casing 2 in the first direction. The idle gear 13 is rotatable relative to the casing 2. As shown in
1.8 Detection Gear 14
In a state where the toner cartridge 1 is attached to an image-forming apparatus 120 described later (see
Specifically, the detection gear 14 is rotatable from a first position (shown in
Also, the detection gear 14 is positioned at the first end portion E1 of the casing 2 in the first direction. Specifically, the detection gear 14 is rotatably attached to the first end portion E1 of the casing 2 in the first direction. More specifically, the detection gear 14 is supported by a boss 21 disposed at the first end portion E1 of the casing 2. The boss 21 extends outward in the first direction from the first end portion E1 of the casing 2. That is, the toner cartridge 1 includes the boss 21. The boss 21 is cylindrical shaped. The boss 21 has a distal end portion. The distal end portion of the boss 21 has a first hole 21A. The detection gear 14 includes a second hole 14A. The second hole 14A is circular shaped in a plan view. The boss 21 of the casing 2 is fitted into the second hole 14A of the detection gear 14 so that the detection gear 14 is rotatable about the boss 21.
1.9 Gear Cover 15
As shown in
1.10 Frame 16
As shown in
1.11 Handle 17
The handle 17 is provided at a center portion of the casing 2 in the first direction. The handle 17 is positioned opposite to the gear cover 15 with respect to the frame 16 positioned at the first end portion E1 of the casing 2 in the first direction. The handle 17 is positioned on the outer surface S1 of the other end portion of the casing 2 in the second direction. The handle 17 extends from the outer surface S1 to protrude away from the auger 3 in the second direction.
2. Structure of Detection Gear 14
As shown in
2.1 Cutout Portion 22A and Outer Surface S2
The cutout portion 22A (a portion cut out from the main body 22) is a portion of the detection gear 14 through which light L (described later) coming from a light-emitting element 125 of the image-forming apparatus 120 is allowed to pass. The outer surface S2 (light-blocking portion 23) is a portion of the detection gear 14 that is configured to block the light L coming from the light-emitting element 125 of the image-forming apparatus 120. The outer surface S2 of the detection gear 14 is aligned with the cutout portion 22A in a rotational direction R of the detection gear 14 (see
In a case where the detection gear 14 is at the first position shown in
In the case there the detection gear 14 is at the first position, a distance D1 between the outer surface S2 of the detection gear 14 and the auger 3 in the second direction that is smaller than a distance D2 between the cutout portion 22A and the auger 3 in the second direction. That is, in the case where the detection gear 14 is at the first position, the distance D1 between the light-blocking portion 23 and the auger 3 in the second direction is smaller than the distance D2 between the cutout portion 22A and the auger 3 in the second direction.
More specifically, the distance D1 is defined as a distance between an outer edge of the outer surface S2, which is positioned closest to the auger 3 in the second direction, and the first axis A1 of the auger 3 in the case where the detection gear 14 is at the first position. The distance D2 is defined as a distance between an outer edge of the cutout portion 22A, which is positioned farthest from the auger 3, and the first axis A1 of the auger 3 in the case where the detection gear 14 is at the first position. That is, in the case where the detection gear 14 is at the first position, the distance D1 between the outer edge of the outer surface S2, which is positioned closest to the auger 3 in the second direction, and the first axis A1 of the auger 3 is smaller than the distance D2 between the outer edge of the cutout portion 22A, which is positioned farthest from the auger 3 in the second direction, and the first axis A1 of the auger 3. Put another way, in the case where the detection gear 14 is at the first position, the distance D1 between the outer edge of the light-blocking portion 23, which is closest to the auger 3 in the second direction, and the first axis A1 is smaller than the distance D2 between the outer edge of the cutout portion 22A, which is farthest from the auger 3 in the second direction, and the first axis A1.
Further, in the case where the detection gear 14 is at the first position, at least a portion of the cutout portion 22A is positioned outside a rotational trajectory 30 of the agitator 4. The rotational trajectory 30 of the agitator 4 is a trajectory defined by the rotation of the main portion 4B while the agitator 4 rotates.
That is, in the case where the detection gear 14 is at the first position, at least a portion of the cutout portion 22A does not overlap with the casing 2 in the first direction.
On the other hand, at least a portion of the outer surface S2 of the detection gear 14 overlaps with the casing 2 in the first direction in the case where the detection gear 14 is at the first position. That is, in the case where the detection gear 14 is at the first position, at least a portion of the light-blocking portion 23 overlaps with the casing 2 in the first direction.
As shown in
Further, in the case where the detection gear 14 is at the second position, a distance D3 between the outer surface S2 of the detection gear 14 and the auger 3 in the second direction is larger than a distance D4 between the cutout portion 22A and the auger 3 in the second direction. In other words, the distance D3 between the light-blocking portion 23 and the auger 3 in the second direction is larger than the distance D4 between the cutout portion 22A and the auger 3 in the second direction in the case where the detection gear 14 is at the second position.
More specifically, the distance D3 is defined as a distance between an outer edge of the outer surface S2 of the detection gear 14, which is farthest from the auger 3 in the second direction, and the first axis A1 in the case where the detection gear 14 is at the second position. The distance D4 is a distance defined between an outer edge of the cutout portion 22A, which is closest to the auger 3 in the second direction, and the first axis A1 in the case where the detection gear 14 is at the second position. That is, in the case where the detection gear 14 is at the second position, the distance D3 between the outer edge of the outer surface S2 of the detection gear 14, which is farthest from the auger 3 in the second direction, and the first axis A1 of the auger 3 is larger than the distance D4 between the outer edge of the cutout portion 22A, which is closest to the auger 3 in the second direction, and the first axis A1 of the auger 3. In other words, in the case where the detection gear 14 is at the second position, the distance D3 between the outer edge of the light-blocking portion 23, which is farthest from the auger 3 in the second direction, and the first axis A1 is larger than the distance D4 between the outer edge of the cutout portion 22A, which is closest to the auger 3 in the second direction, and the first axis A1.
Further, at least a portion of the outer surface S2 of the detection gear 14 is positioned outside the rotational trajectory 30 of the agitator 4 in the case where the detection gear 14 is at the second position. That is, at least a portion of the light-blocking portion 23 is positioned outside the rotational trajectory 30 of the agitator 4 in the case where the detection gear 14 is at the second position.
That is, at least a portion of the cutout portion 22A overlaps with the casing 2 in the first direction in the case where the detection gear 14 is at the second position.
On the other hand, at least a portion of the outer surface S2 of the detection gear 14 does not overlap with the casing 2 in the first direction in the case where the detection gear 14 is at the second position. In other words, at least a portion of the light-blocking portion 23 does not overlap with the casing 2 in the first direction in the case where the detection gear 14 is at the second position.
2.2 Gear Teeth 24
As shown in
As shown in
As shown in
2.3 First Rib 25 and Second Rib 26
As shown in
3. Structure of Gear Cover 15
As shown in
More specifically, as shown in
In the case where the detection gear 14 is at the second position, the outer surface S2 of the detection gear 14 is aligned with the second hole 31A of the gear cover 15 in the first direction (see a broken line indicating the position of the second hole 31A in
As shown in
The lock portion 32 is positioned on an outer surface of the gear cover 15. The lock portion 32 projects from the outer surface of the gear cover 15 outward in the first direction. The lock portion 32 is positioned between the auger 3 and the second hole 31A in the second direction. The lock portion 32 extends in the second direction. The lock portion 32 is configured to be locked by a locking member 101 (see
4. Structure of Frame 16
As shown in
5. Structure of Handle 17
As shown in
6. Attachment of Toner Cartridge 1 to Developing Device 100
Next, how the toner cartridge 1 is attached to the developing device 100 including a developing roller 102 will be described with reference to
First, the first protrusion 5 and the second protrusion 6 of the toner cartridge 1 are inserted in the developing device 100 and placed at the developing device 100. Once the toner cartridge 1 is placed at the developing device 100, the toner cartridge 1 is then pivoted from a state shown in
Here, the phrase “the toner cartridge 1 pivots” means that the toner cartridge 1 pivots about the first axis A1 of the auger 3. The phrase “the toner cartridge 1 is placed at the developing device 100” means a state where: the toner cartridge 1 is incapable of supplying toner to the developing device 100; and a vertical position of the toner cartridge 1 relative to the developer unit 100 is fixed, but the toner cartridge 1 is not yet pivoted relative to the developing device 100 (the state shown in
7. Attachment of Toner Cartridge 1 to Image-Forming Apparatus 120
Next, how the toner cartridge 1 is attached to the image-forming apparatus 120 will be described with reference to
As shown in
The first side wall 120A faces the gear cover 15 of the toner cartridge 1 in the first direction in a state where the toner cartridge 1 attached to the developing device 100 is attached to the image-forming apparatus 120. The first side wall 120A supports the light-emitting element 125.
The second side wall 120B is spaced apart from the first side wall 120A in the first direction. The toner cartridge 1 is positioned between the first side wall 120A and the second side wall 120B in the state where the toner cartridge 1 attached to the developing device 100 is attached to the image-forming apparatus 120. In other words, in a state where the toner cartridge 1 and the developing device 100 are attached to the image-forming apparatus 120, the second side wall 120B is positioned opposite to the first side wall 120A with respect to the toner cartridge 1 and the developing device 100 in the first direction. The second side wall 120B supports the light-receiving element 126.
In the state where the developing device 100 and the toner cartridge 1 are attached to the image-forming apparatus 120, the light-emitting element 125 faces the second hole 31A of the gear cover 15 of the toner cartridge 1 (see
The light-receiving element 126 is disposed to be spaced apart from the light-emitting element 125 in the first direction. The light-receiving element 126 faces the light-emitting element 125 in the first direction.
The cutout portion 22A (see
Accordingly, the light L passing through the second hole 31A (see
On the other hand, in a state where the toner cartridge 1 is attached to the image-forming apparatus 120 and the detection gear 14 is at the second position, the outer surface S2 of the detection gear 14 is positioned between the light-emitting element 125 and the light-receiving element 126 in the first direction. In other words, the light-blocking portion 23 of the detection gear 14 at the second position is positioned between the light-emitting element 125 and the light-receiving element 126 in the first direction, in a state where the toner cartridge 1 is attached to the image-forming apparatus 120.
Accordingly, in case where the toner cartridge 1 is attached to the image-forming apparatus 120 and the detection gear 14 is at the second position, the light L emitted from the light-emitting element 125 is blocked by the outer surface S2 of the detection gear 14 at the second position, and is not received by the light-receiving element 126. In other words, the light L is blocked by the light-blocking portion 23 of the detection gear 14 at the second position, and is not received by the light-receiving element 126, in the state where the toner cartridge 1 is attached to the image-forming apparatus 120 and the detection gear 14 is at the second position.
8. Operations in Toner Cartridge 1
Next, operations performed in the toner cartridge 1 when the image-forming apparatus 120 reads information on the toner cartridge 1 will be described with reference to
In a state where the toner cartridge 1 is attached to the image-forming apparatus 120 and the detection gear 14 is at the first position, as shown in
Subsequently, the image-forming apparatus 120 performs an operation to read information on the toner cartridge 1 (hereinafter, referred to as a “reading operation”). Once the image-forming apparatus 120 starts the reading operation, the auger gear 11 is configured to rotate upon receipt of a driving force from the image-forming apparatus 120.
In accordance with rotation of the auger gear 11, the driving force is transmitted to the detection gear 14 via the idle gear 13 and the agitator gear 12, as shown in
The light L is therefore blocked by the outer surface S2 of the detection gear 14 at the second position, and is not received by the light-receiving element 126. Thus, the light-receiving element 126 does not detect the light L.
In a case where the light-receiving element 126 initially detects the light L but subsequently does not detect the light L while performing the reading operation, the image-forming apparatus 120 determines that the toner cartridge 1 is new.
On the other hand, in a case where the detection gear 14 is already at the second position in the state where the toner cartridge 1 is attached to the image-forming apparatus 120, the detection gear 14 cannot rotate even if the image-forming apparatus 120 performs the reading operation, since the plurality of gear teeth 24 are already disengaged from the agitator gear 12. Accordingly, the light-receiving element 126 does not detect the light L while the reading operation is performed by the image-forming apparatus 120. If this is the case, the image-forming apparatus 120 determines that the toner cartridge 1 is not new.
Note that whether or not the toner cartridge 1 is new is an example of information on the toner cartridge 1. Alternatively, the information on the toner cartridge 1 may be on how many numbers of sheets printing can be performed with the toner cartridge 1.
Further, in a case where the light-receiving element 126 does not detect the light L after the image-forming apparatus 120 has performed the reading operation, the image-forming apparatus 120 determines that the toner cartridge 1 is attached.
On the other hand, in a case where the light L is not blocked and the light-receiving element 126 continues to detect the light L after the image-forming apparatus 120 has performed the reading operation, the image-forming apparatus 120 determines that the toner cartridge 1 is not attached.
9. Operational and Technical Advantages
In the toner cartridge 1, the detection gear 14 is positioned opposite to the auger gear 11 with respect to the agitator gear 12 in the second direction, as shown in
With this structure, in the toner cartridge 1 in which toner is conveyed by the auger 3 and the agitator 4, the movement of the detection gear 14 can be detected by the image-forming apparatus 120, even if the casing 2 of the toner cartridge 1 attached to the image-forming apparatus 120 is positioned to be interposed between the light-emitting element 125 and the light-receiving element 126 in the first direction.
10. Variations and Modifications
10.1 Modifications of Detection Gear 14
Still alternatively, the detection gear 14 may include a friction portion, instead of the plurality of gear teeth 24. The friction portion may be provided to make contact with the agitator gear 12 to generate a frictional force to rotate the detection gear 14. The friction portion may contact the agitator gear 12 in the case where the detection gear 14 is at the first position, while the friction portion may not contact the agitator gear 12 in the case where the detection gear 14 is at the second position. The friction portion may be any member, provided that the member can generate a frictional force upon contact with the agitator gear 12. For example, the friction part may be made of rubber.
10.2 Modifications of Gear Cover 15
Alternatively,
10.3 Variations of Frame 16
The frame 16 may have a third cutout, instead of the third hole 41A.
Alternatively, the frame 16 may have a third light-transmission portion, instead of the third hole 41A or the third cutout portion. The third light-transmission portion may be a transparent film, or a transparent plate. The third light-transmission portion may cover the third hole 41A or the third cutout portion. In this case, the third light-transmission portion may be a separate member from the frame 16. Still alternatively, the third light-transmission portion may be provided so as to fill the third hole 41A or the third cutout portion so as to be formed integrally with the frame 16.
While the disclosure is described in detail with reference to the specific embodiments thereof while referring to accompanying drawings, it would be apparent to those skilled in the art that many modifications and variations may be made therein without departing from the scope of the disclosure.
Number | Date | Country | Kind |
---|---|---|---|
2016-194661 | Sep 2016 | JP | national |
This application is a continuation of application Ser. No. 16/427,570, filed May 31, 2019, which is continuation of application Ser. No. 15/471,968, filed Mar. 28, 2017, which further claims priority from Japanese Patent Application No. 2016-194661 filed Sep. 30, 2016. The entire contents of the aforementioned applications are incorporated herein by reference.
Number | Date | Country | |
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Parent | 16427570 | May 2019 | US |
Child | 16827832 | US | |
Parent | 15471968 | Mar 2017 | US |
Child | 16427570 | US |