The present utility model relates to an ink cartridge for an inkjet printer, and more particularly to an ink cartridge with an optical detection element installed therein.
In existing inkjet printing technologies, some inkjet printers use an optical mechanism to detect whether the ink in the ink cartridge is exhausted, so as to avoid unrecoverable damages to the printer when the ink is exhausted while the printer is still printing, and prevent unnecessary waste of time and paper for users. In US patent application publication No. US2005195225,a solution is disclosed: a light emitting element and a light receiving element are disposed on a printer, and accordingly, a lever is disposed in an ink cartridge of the printer, a floating mark and a light shielding element are provided on two ends of the lever respectively, and a support in the middle of the lever is fixed at the bottom of an ink chamber of the ink cartridge. The ink cartridge has a detection portion protruding outwards and made of a transparent material, and the internal space of the detection portion is capable of accommodating the light shielding element. When the ink cartridge is installed into a printer, the detection portion is located between the light emitting element and the light receiving element. When the ink cartridge contains sufficient ink, the floating mark floats on the surface of the ink due to the buoyancy, and the light shielding element is located inside the detection portion, thus the light emitted from the light emitting element is blocked and the light receiving element cannot receive the light. When the ink in the ink cartridge is exhausted, because there is no buoyancy, the floating mark drops down, and the light shielding element moves upwards, such that the light receiving element receives the light emitted from the light emitting element. Accordingly the printer obtains information indicating that the ink is exhausted, and sends a signal to remind the user. The solution can effectively detect the moment when the ink is exhausted, but it has the disadvantages in the design of the lever: the installation of the floating mark is complicated, so the production efficiency of the ink cartridge is lowered. Furthermore, the light shielding element that moves with the change of the volume of the ink in the ink cartridge must be made of a non-transparent material. In the solution, a black PP material is used, so it is required that the black color master batch and the PP raw material be blended evenly during injection production. If they are not blended evenly or are blended not even enough, the ink cartridge cannot be identified after being installed into the printer. The light shielding element moves with the change of the volume of the ink in the ink cartridge, so a large number of parts are required, resulting in a complex production process.
Accordingly, the present utility model is aimed to provide an ink cartridge for an inkjet printer, which can be manufactured with a simpler production process.
The above aim of the present utility model is realized as following:
An ink cartridge for an inkjet printer includes an ink supply port, an air vent, and an ink chamber for containing ink to be supplied to the printer and a light detection portion. The light detection portion comprises a first triangular prism and a second triangular prism formed by transparent material. Two side surfaces of the triangular prisms reflect or refract light emitted by a light emitting element on the printer.
According to an embodiment of the utility model, the ink cartridge has an ink supply port, an air vent and an ink chamber, which can be the same as those used in a conventional ink cartridge. A first triangular prism is disposed on a light detection portion outside of the ink cartridge and does not contact ink. The first triangular prism is adapted to totally reflect light, and a second triangular prism with no reflective paper attached thereto is disposed below the first triangular prism. The second triangular prism is positioned inside the ink cartridge and contacts the ink, and is adapted to refract and reflect light. The two triangular prisms are made of transparent material. When the ink cartridge is installed into a printer, the first triangular prism and the second triangular prism are located between a light emitting element and a light receiving element of the printer. When the ink cartridge contains sufficient ink and is installed into the printer for printing, a first surface of the first triangular prism totally reflects light emitted by the light emitting element of the printer onto a third surface of the second triangular prism. At this stage, as the space below the second triangular prism is filled with the ink, according to the refraction principle, the light is directly incident into the ink and cannot be received by the light receiving element of the printer, and accordingly the printer recognizes that the ink cartridge has ink contained therein. When the ink in the ink cartridge is exhausted, the ink adjacent to the second triangular prism in the ink cartridge is consumed. The first surface of the first triangular prism totally reflects the light emitted by the light emitting element of the printer onto the third surface of the second triangular prism. The light is incident onto a first surface of the second triangular prism through the third surface. Next, according to the total reflection principle, the light is reflected onto a second surface of the second triangular prism, and is reflected onto to a second surface of the first triangular prism, and then is reflected onto the light receiving element, and the printer prompts that the ink is exhausted and sends a signal to remind a user to replace the ink cartridge.
According to another aspect of the present utility model, reflective surfaces each made of two planes intersecting at right angle can be used. Two edges of the right angle protrude outwards at the detection portion of the ink cartridge.
According to another aspect of the present utility model, two curved surfaces are used as reflective surface, wherein one curved surface is attached with a reflective material so as to realize the detection function. The detailed content is described with reference to the embodiments.
According to another aspect of the present utility model, a metal reflective element is used as a reflective surface to replace the first triangular prism so as to realize the detection function. The detailed content is described with reference to the embodiments.
According to another aspect of the present utility model, the triangular prisms are made solid, and two side surfaces are attached with reflective paper so as to realize the detection function. The detailed content is described with reference to the embodiments.
The present utility model adopts the above technical solution and provides an ink cartridge structure which can be manufactured with a simpler production process and can be used in a conventional inkjet device. The present unity model realizes the detection function by taking advantage of the reflection principle and the refraction principle, so as to replace the above conventional light shielding element and floating mark and make the ink cartridge work more reliably.
The present utility model will become more fully understood from the detailed descriptions given below. The descriptions are for illustration only and, thus, are not limitative of the present utility model, and wherein:
In the drawings:
Embodiments of the present utility model are further described in detail with reference to the accompanying drawings.
The first triangular prism 1 and the second triangular prism 2, which are made of transparent material, are disposed on the bottom shell 3 of the ink cartridge. A distance between the first triangular prism 1 and the second triangular prism 2 is 1-12 mm A space enclosed by a first surface 14 and a second surface 15 of the first triangular prism 1 is made hollow and filled with air or other substances having a density lower than that of plastic.
When the ink cartridge contains ink, the ink cartridge is installed into a printer for printing.
As printing continues, the volume of the ink in the ink cartridge decreases continuously. When the ink in the ink cartridge is exhausted, the ink adjacent to the second triangular prism 2 in the ink cartridge is consumed.
According to the second embodiment, the two right angles may further be configured as two curved surfaces (as shown in
According to the first embodiment, in order to avoid low production efficiency caused by mold-related problems, as shown in
According to the first embodiment, as shown in
Number | Date | Country | Kind |
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200720305166.X | Dec 2007 | CN | national |
This application is a continuation of International Application No. PCT/CN2008/073408, filed on Dec. 10, 2008, which claims the priority of Chinese Patent Application No. 200720305166.X, filed on Dec. 10, 2007. The contents of the above identified applications are incorporated herein by reference in their entirety.
Number | Date | Country | |
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Parent | PCT/CN2008/073408 | Dec 2008 | US |
Child | 12796883 | US |