1. Field of the Invention
The invention relates to an electrophotographic image forming device, such as a laser printer, copier, facsimile machine, etc. Particularly, the invention relates to a processing cartridge for the electrophotographic image forming device.
2. Description of the Related Art
A conventional processing cartridge, as illustrated in
When the electrophotographic image forming device operates, it receives external signals for an electrostatic latent image to be formed on the photosensitive member in the photosensitive unit 2 on the processing cartridge. Afterwards, the processing cartridge receives the driving power and voltage from the electrophotographic image forming device to output the developer, as stored in the developing unit 1 on the processing cartridge, to the developing member 7, and a developer layer will be formed on the developing member 7. The developer layer develops the electrostatic latent image on the photosensitive member in the photosensitive unit 2 and then the electrophotographic image forming device transfers the developed electrostatic latent image onto a printing medium.
Some of the transferred developer will remain on the photosensitive member due to incomplete transfer and finally be cleaned down into the photosensitive unit 2 and stored in the chamber 2a as shown in
After the processing cartridge reaches a certain point of its useful life, the photosensitive unit will be filled up with the developer cleaned down from the photosensitive member and cannot store developer any more. If the processing cartridge continues to operate, the residual developer on the photosensitive member could not be cleaned up, which therefore affects the normal operation of the processing cartridge.
It is, inter alia, an object of the invention to provide a processing cartridge aiming at tackling the technical problem that the photosensitive unit of a conventional processing cartridge, after filled up with the developer cleaned down from the photosensitive member of the processing cartridge, can no longer store developer, which affects the normal operation of the processing cartridge for the residual developer on the photosensitive member could not be cleaned up.
To that end, the invention adopts a technical proposal as follows:
A processing cartridge, comprising a developing unit and a photosensitive unit, the photosensitive unit comprising a photosensitive member and a chamber for developer, characterized in that said photosensitive unit also comprises a developer outlet connecting the chamber and a sealing cap matching the developer outlet and used to seal said outlet.
The processing cartridge also includes a first side plate on one end of the developing unit comprising a case and a developing member. A developer inlet is designed on the developing unit close to the first side plate. The developer inlet is sealed by means of a sealing plug. The first side plate has an opening designed to expose the sealing plug at a position corresponding to the sealing plug.
In addition, said photosensitive unit has a third side plate used to secure one end of the photosensitive unit.
Said chamber has ribs. Said ribs are designed with grooves.
Said photosensitive unit includes also a second side plate, mounted on the other end of the developing unit and used to support the developing member.
Based on said technical proposal, the photosensitive unit has a developer outlet connecting the chamber and a sealing cap matching the developer outlet and used to seal the said outlet. Thus, when the photosensitive unit is filled up with developer, the sealing cap can be opened to pour away the developer in the photosensitive unit, which makes it easy to clean without affecting the normal operation of the processing cartridge and solves the technical problem that the photosensitive unit of a conventional processing cartridge, after filled up with the developer cleaned down from the photosensitive member of the processing cartridge, can no longer store developer, which affects the normal operation of the processing cartridge for the residual developer on the photosensitive member could not be cleaned up. Then again, there are grooves designed on the ribs in the chamber, so the developer can flow freely between the ribs in the chamber via the grooves, making it easier and more convenient to store and pour out the developer. At the last, since the first side plate has an opening designed to expose the sealing plug at the position corresponding to the sealing plug, it is good to only remove the sealing plug from the opening without opening the first side plate when refilling developer, which further facilitates the refilling of developer.
A processing cartridge, as shown in
The first side plate 30 is mounted on one end of the case 80 and the second side plate 40 is mounted on the other end of the same case. The developing member 70 is mounted on the case 80 and is fixed by the first side plate 30 and the second side plate 40. The third side plate 210 is mounted on one end of photosensitive unit 20 to secure one end of the photosensitive member in the photosensitive unit 20.
A developer inlet 60 is designed on the case 80. The developer enters via the developer inlet 60, and is stored in, the developing unit 10.
As shown in
As shown in
When the developer in the developing unit 10 is used up, it is practicable to refill the developing unit 10 with developer, if required, just by opening the sealing plug 50.
If the photosensitive unit 20 becomes full with developer, the sealing cap 220 can be opened to remove the developer in the photosensitive unit 20.
As shown in
After the processing cartridge is mounted onto an electronphotographic image forming device, the developer is transferred to the developing member 70 under the action of the voltage and driving force supplied by the electrophotographic image forming device. After the electrophotographic image forming device receives external signals, an electrostatic latent image will be formed on the photosensitive member. The developer as absorbed on the developing member 70 develops the said electrostatic latent image, resulting in a developer image corresponding to the said electrostatic latent image. Subsequently, the developer image will be transferred onto a printing medium.
Some developer will remain absorbed on the photosensitive member due to incomplete transfer and finally be cleaned down and stored in the chamber 20a on the photosensitive unit 20.