1. Field of the Invention
The present invention relates to a toner cartridge for use in an electrophotographic image recording apparatus such as printers and copying machines.
2. Description of the Related Art
Toner cartridges can be classified into two types according to their outer shapes: a substantial cylindrical housing and an unconventionally-shaped housing, which is a combination of cylinder and other shapes.
An unconventionally-shaped toner cartridge has a sealing member that closes a toner exit formed in the housing. After the toner cartridge has been installed into the printer, the sealing member is removed so that the toner cascades into the developing unit of the printer.
A conventional cylinder type toner cartridge includes a substantially cylindrical housing and a cylindrical or arcuate shutter rotatably inserted into the cylindrical housing in alignment with a toner exit formed in the cylindrical housing. When the shutter is rotated relative the housing, the shutter rotates between a closing position and an opening position, thereby closing or opening the toner exit. Until the toner cartridge has been installed, the shutter closes the toner exit to hold the toner in the cartridge. After the toner cartridge has been installed, the shutter is rotated to open the toner exit, thereby cascading the toner into the developing unit of the printer.
With the conventionally-shaped housing, the sealing member that closes the toner exit is removed from the toner exit. Therefore, the toner exit remains open when the empty toner cartridge is taken out of the printer. Thus, the toner may scatter through the toner exit causing soiling of the interior of the printer. Thus, only remnants of the aforementioned unconventionally-shaped housing is difficult to handle when the empty toner cartridge is taken out.
A limitation of the conventional cylindrical housing is that the outer shape of the housing cannot be selected freely. The only way of providing a large-capacity housing is to increase the diameter of the cylindrical housing. Thus, it is difficult for the cylinder type toner cartridge to overcome a problem of limited mounting space in the printer.
The present invention was made in view of the aforementioned drawbacks of the conventional toner cartridges.
An object of the invention is to provide a toner cartridge that is easy to handle when the cartridge is taken out of the printer and discarded.
Another object of the invention is to provide a toner cartridge that solves the problem of limited mounting space in the printer.
A toner cartridge comprises a housing and a shutter inserted therein. The housing has a first partially cylindrical wall and a box-like portion that communicates with the first partially cylindrical wall. The shutter has a second partially cylindrical wall inserted inside the first partially cylindrical wall such that the second partially cylindrical wall is slidable on and concentric with an inner surface of the first partially cylindrical wall. The shutter has a supporting member that engages the housing to support the shutter such that the second partially cylindrical wall is in pressure contact with the first partially cylindrical wall.
The supporting member may be an arcuate member that extends across circumferential ends of the second partially cylindrical wall and engages a part of the box-like portion so that the shutter is rotatably supported in the housing by the part and the first partially cylindrical wall.
The housing has a projection or rib that inwardly projects toward the first partially cylindrical wall. The projection abuts the arcuate member so that the shutter is rotatably supported in the housing by the arcuate member and the first partially cylindrical wall.
The projection has a stepped portion formed therein, the supporting member engages the stepped portion so that the shutter is positioned relative to the housing.
The shutter has a cylindrical portion adjacent the second partially cylindrical wall. The housing has a cylindrical portion into which the cylindrical portion of the shutter is slidably inserted. The cylindrical portion of the housing has a sealing member that wraps around the shutter's cylindrical portion to seal a gap between the two cylindrical portions.
The sealing member has longitudinal ends with shapes that fit together in a manner avoiding overlap.
When the shutter is at the toner-discharging position, the second partially cylindrical wall is aligned with the first partially cylindrical wall such that the second partially cylindrical wall is outside of a space defined by the box-like portion.
The housing extends in a longitudinal direction and has a small width portion and a large width portion adjacent to the small width portion.
The housing extends in a longitudinal direction and has a side plate that closes one of the two longitudinal ends of the housing. The side plate has a first engagement portion extending toward the housing and engages the housing, and the housing has a second engagement portion extending toward the side plate and engages the side plate.
The shutter has a toner agitating member that extends in a longitudinal direction of the shutter. A drive section is provided at one of longitudinal ends of the shutter. A sealing member provides a seal between the shutter and the drive section. The drive section drives the toner agitating member in rotation.
The shutter has a cylindrical portion adjacent the second partially cylindrical wall, and a wall that closes the cylindrical portion and is located between the drive section and the cylindrical portion. The wall has at least one projection that engages the sealing member to prevent from rotating when the drive section drives the toner agitating member in rotation.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus are not limiting the present invention, and wherein:
The present invention will be described in detail by way of example.
First Embodiment
{Overall construction}
Referring to
As shown in
The shutter 2 and housing 1 are molded from, for example, a plastic material. Resilient sealing members 3, 4, 7, and 10 provide a seal between the housing 1 and the shutter 2, thereby preventing the toner in the toner cartridge from leaking.
Referring to
The rib 1b has a stepped portion 1c at a tip thereof between the longitudinal ends of the housing. The shutter 2 is inserted into the housing 1 from one of the longitudinal ends, and the side plate 5 is mounted to the other of the longitudinal ends. The cap 6 is attached to the side plate 5 to close the toner filling opening 5a. The housing 1 has projections 1g and grooves 1f near the side plate 5 (only one projection and one groove 1f are shown in FIGS. 1A and 1B). The grooves 1f (
Thus, the toner cartridge according to the first embodiment is a toner cartridge having an unconventionally-shaped housing, which is a combination of the longitudinally extending semi-cylindrical portion 1A and the longitudinally extending rectangular box-like portion 1B.
The box-like portion can have an outer shape configured to a space in the printer into which the toner cartridge is installed. The unconventionally-shaped housing provides a greater degree of freedom in designing a high capacity toner cartridge.
{Construction of Shutter}
Referring to
The shutter 2 is rotatable relative to the semi-cylindrical portion 1A of the housing 1 and movable between the toner-discharging portion and the toner non-discharging position. When the shutter 2 is at the toner-discharging position, the toner exits 1a and 2a are in alignment with each other, so that the toner in the toner cartridge is discharged into the developing unit of the printer. When the shutter 2 is at the toner-non discharging position, the toner exits 1a and 2a are not in alignment with each other. Thus, the toner in the toner cartridge remains sealed. The toner exit 2a is slightly smaller than the toner exit 1a.
When the shutter 2 is at the toner-discharging position, the semi-cylindrical portion 2A entirely opposes the semi-cylindrical portion 1A and does not project into a space defined by the rectangular box-like portion 1B. Thus, the semi-cylindrical portion 2A will not interfere with the toner cascading from the box-like portion 1B. When the shutter 2 is at the toner non-discharging position, a part of the semi-cylindrical portion 2A does not oppose the semi-cylindrical portion 1A but extends into the rectangular box-like space 1B as shown in FIG. 5.
The short cylinders or rings, which are defined by the semi-cylindrical portion 2A and the reinforcements 2B-1 and 2B-2, are rotatably supported by the rib 1b and the semi-cylindrical portion 1A.
The stepped portion 1c formed in the rib 1b engages the reinforcements 2B-1, thereby restricting the movement of the shutter 2 in the longitudinal direction thereof.
When the user attaches the toner cartridge into the printer or detaches the toner cartridge from the printer, the user's finger can access the narrow portion 1e so that the user can firmly hold the toner cartridge.
Referring to
Referring to
As shown in
The resilient sealing member 4 is bonded on the outer circumferential surface of the semi-cylindrical portion 2A of the shutter 2.
The resilient sealing member 4 may be of other shapes such as shown in
As shown in
{Construction of Housing}
Referring to
Referring to
Referring to
As shown in
{Assembly steps of toner cartridge}
The manufacturing steps of the toner cartridge according to the first embodiment will now be described.
The resilient sealing member 4 is made of a material such as sponge. Once it is stretched, it may remain substantially stretched. Thus, it is difficult to properly bond the resilient sealing member 4 to the outer peripheral surface of the cylindrical portion 2C of the shutter 2.
For this reason, prior to the bonding of the resilient sealing member 4, a non-stretchable member 11 is attached to the resilient sealing member 4 using, for example, a double-sided tape. The non-stretchable member 11 is made of a material such as PRT (polyethylene terephthalate) and of the same size as the resilient sealing member 4.
Then, the resilient sealing member 4 is bonded to the cylinder 2C with the non-stretchable member 11 directly facing the cylinder 2C of the shutter 2. Alternatively, the non-stretchable member 11 is first bonded to the resilient sealing member 4. Then, the resilient sealing member 4 is bonded to the cylindrical portion 2C with the non-stretchable member 11 not facing the cylindrical portion 2C. Then, the non-stretchable member 11 is peeled off the resilient sealing member 4. For this purpose, the non-stretchable member 11 should be such that can easily be peeled off the resilient sealing member 4 once the resilient sealing member 4 has been bonded to the shutter 2.
The non-stretchable member 11 prevents the sealing member 4 from being inadvertently stretched, thereby facilitating the assembly of the resilient sealing member 4 with a predetermined dimensional accuracy.
Before being mounted on the cylindrical portion 2A, the resilient sealing member 3 is a flat member. The resilient sealing member 3 is formed with openings 3a and 3b (
Just like the resilient sealing member 4, a non-stretchable member is bonded to the resilient sealing member 3 and the resilient sealing member 3 is then bonded to the semi-cylindrical portion 2A. With the aid of the non-stretchable member, the resilient sealing member 3 can be bonded to the semi-cylindrical portion 2A with a predetermined dimensional accuracy.
Then, as shown in
After the resilient sealing members 3, 4, 7, and 10, toner-agitating member 9, and drive force transmitting mechanism 8 have been assembled to the shutter 2, the shutter 2 is inserted into the semi-cylindrical portion 1A of the housing 1.
The semi-cylindrical portion 2A is inserted into the housing 1 through the cylindrical portion 1C, so that the cylindrical portion 2C fits into the cylindrical portion 1C and then further inserted until the reinforcement 2B engages the stepped portion 1c formed in the rib 1b.
The reinforcement 2B abuts the tip of the rib 1b so that the shutter 2 is supported in the housing 1 by the rib and the semi-cylindrical portion 1A. Therefore, the toner exit 1a of the housing 1 is effectively sealed by the resilient sealing member 3 when the shutter 2 is at the toner non-discharging position.
A short cylinder or ring defined by the reinforcement 2B and semi-cylindrical portion 2A, is rotatably supported by the inner surface of the semi-cylindrical portion 1A and the rib 1b of the housing 1.
Then, the driver 2e is operated to rotate the shutter 2 to the toner non-discharging position where the opening 3b of the resilient sealing member 3 is aligned with the toner exit 1a. Then, as shown in
The sealing tape 12 also sticks to the exposed outer surface of the semi-cylindrical portion 2A, thereby further ensuring that the shutter 2 is at the toner non-discharging position.
The side plate 5 is assembled to the housing 1 with the resilient sealing member 7 between the side plate 5 and the housing 1. Then, the toner is introduced into the toner cartridge through the toner filling opening 5a. Then, the cap 6 is attached to the toner filling opening 5a to seal the toner in the toner cartridge. This completes the assembly of the toner cartridge according to the first embodiment.
{The procedure for attaching the toner cartridge into the printer and the operation for supplying toner into the developing unit of the printer}
The developing unit includes a toner cartridge accommodating section, a toner reservoir, and a drive source for driving the toner-agitating member 9. The toner cartridge accommodating section is formed with a toner supplying opening through which the toner is supplied from the toner cartridge into the toner reservoir.
The user peels off the sealing tape 12 and installs the toner cartridge to the toner cartridge accommodating section, where the toner exit 1a of the housing 1 opposes the toner supplying opening and the drive force transmitting mechanism 8 of the toner cartridge is coupled to the drive source.
As the shutter 2 is rotated, the surface of the resilient sealing member 3 slides on the inner surface of the semi-cylindrical portion 1A of the housing 1. If the toner is deposited on the surface of the resilient sealing member 3, a large load is exerted on the shutter 2 when the shutter 2 is rotated. When the shutter 2 rotates, it does not rotate beyond the semi-cylindrical portion 1A of the housing 1 (
When the shutter 2 is at the toner-discharging position, the semi-cylindrical portion 2A of the shutter 2 is not beyond the semi-cylindrical portion 1A. This allows the toner in the box-like portion 1B to be smoothly cascaded into the semi-cylindrical portion 2A.
The toner-agitating member 9 is driven in rotation by the drive source and the drive force transmitting mechanism 8, thereby agitating the toner in the toner cartridge so that the toner is efficiently supplied to the toner reservoir in the printer.
When the toner cartridge becomes empty of toner, the printer indicates a message to the user. The user then operates the lever 2e of the toner cartridge in the opposite direction to the direction in which the lever 2e was operated when the fresh, unused toner was introduced into the developing unit. The lever 2e is operated until the shutter 2 reaches the toner non-discharging position. Thus, the user removes the toner cartridge from the printer.
Instead of providing the rib 1b, the box-like portion 1B can have a flat wall as shown in
Second Embodiment
Just as in the first embodiment, the housing 1 is a hollow body that includes a semi-cylindrical portion 1A, box-like portion 1B, and a cylindrical portion 21C adjacent to the semi-cylindrical portion 1A.
The toner cartridge according to the second embodiment is also in odd-shape type toner cartridge with a box-like portion that can be configured to a space available in the printer.
FIGS. 19 and 20A-20B illustrate a toner cartridge according to a second embodiment.
Like elements have been given like reference numerals throughout FIGS. 19 and 20A-20B.
Referring to
As the shutter 22 is rotated relative to the housing 21, the projection 22g slides along the slit 21g between the toner discharging position and the toner non-discharging position. The opposing longitudinal ends of the slit 21g correspond to the toner discharging position and the toner-discharging position, respectively. The slit 21g prevents the shutter 22 from moving in a longitudinal direction of the shutter 22.
Referring to FIGS. 19 and 20A-20B, the toner cartridge according to the.second embodiment includes a housing 21, a shutter 22 inserted into the housing 21, resilient sealing members 3, 4, 7, and 10, a side plate 5, a cap 6, a drive force transmitting mechanism 8, an toner-agitating member 9, and a ring member 23. Although only one ring member is provided, a larger number of the ring members 23 can be used.
Referring to
The semi-cylindrical portion 22A is formed with a fitting groove 22f in an inner circumferential surface thereof into which the ring member 23 is fittingly received. The cylindrical portion 22C of the shutter 22 is formed with a projection 22g, which projects into a slit 21g formed in the cylindrical portion 21C of the housing 21.
The ring member 23 engages the stepped portion 1c in the rib 1b of the housing 21 and fits into the groove 22f formed in the inner surface of the semi-cylindrical portion 22A. Thus, the ring member 23 enables the shutter 22 to be rotatably supported by the rib and the semi-cylindrical portion 22A.
It is to be noted that the ring member 23 is not secured to the semi-cylindrical portion 22A of the shutter 22, but is rotatable independently of the semi-cylindrical portion 22A. This structure alleviates rotational load of the shutter 22, thus reducing the chance of the shutter of flexing or twisting.
The ring member 23 is not secured to the semi-cylindrical portion 22A of the shutter. Thus, the ring member 23 is rotatable independent from the semi-cylindrical portion 22A, thereby alleviating deflection and torsion of the shutter 22.
The outer diameter of the ring member 23 is substantially the same as the inner diameter of the semi-cylindrical portion 22A. However, they may be of different diameters.
For example, as shown in
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art intended to be included within the scope of the following claims.
Number | Date | Country | Kind |
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11-216199 | Jul 1999 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5809384 | Johroku et al. | Sep 1998 | A |
6088556 | Nagasaki et al. | Jul 2000 | A |
6185401 | Kanamori et al. | Feb 2001 | B1 |
Number | Date | Country |
---|---|---|
60-130772 | Jul 1985 | JP |
60147766 | Aug 1985 | JP |
3288875 | Dec 1991 | JP |
06-266227 | Sep 1994 | JP |
Number | Date | Country | |
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Parent | 09628721 | Jul 2000 | US |
Child | 11526295 | US |