This application is a U.S. National Stage Application of and claims priority to International Patent Application No. PCT/US2013/062582, filed on Sep. 30, 2013, and entitled “INK CARTRIDGE,” which is hereby incorporated by reference in its entirety.
Oftentimes ink cartridges have certain predefined design constraints such as outer dimensions, latch features, fluidic interconnect features, certain back pressure mechanisms, etc. There is a desire for ink cartridges to hold relatively large amounts of ink at relatively low manufacturing costs, and while respecting these predefined design constraints.
For the purpose of illustration, certain examples constructed in accordance with this disclosure will now be described with reference to the accompanying drawings, in which:
In the following detailed description, reference is made to the accompanying drawings. The examples in the description and drawings should be considered illustrative and are not intended as limiting to the specific example or element described. Multiple examples can be derived from the following description and drawings through modification, combination or variation of the different elements.
The single cast reservoir portion 3 includes a latch handle 11 that protrudes from the back wall 7 and is integrally molded with the back wall 7. The latch handle 11 may be defined as a generally rectangular handle hingeable with respect to the back wall 7. The latch handle 11 includes a latch bump 12 protruding outwards. The latch bump 12 is to engage a corresponding printer latch element to latch the cartridge 1 to the printer. Also the latch bump 12 is to disengage from the printer latch element to remove the cartridge 1 from the printer. For example the latch handle 11 hinges inwards when pushing the cartridge 1 downwards into a latched position in the printer, and hinges outwards into latched position when the latch bump 12 passes the corresponding printer latch element. The latch handle 11 can be manually hinged inwards again to release the latch bump 12 and remove the cartridge 1 from the printer.
The single cast reservoir portion 3 further includes a fluidic interconnect 13 protruding from the bottom wall 8, near the front wall 5. The fluidic interconnect 13 includes a cylindrical wall. The fluidic interconnect 13 is to interconnect with a corresponding printer fluidic interconnect. The fluidic interconnect 13 may support a filter to hold and transport ink. The filter may extend within and/or over the cylindrical wall. The foam in the ink chamber is fluidically connected to the filter.
The reservoir portion 3 is manufactured of a polymer resin that may be of relatively low cost as compared to the polymer configuration of the lid 2. The reservoir polymer can be a high melt flow rate copolymer, for example having a melt flow rate (at 230° C./2.16 kg) of at least 15 g/10 min or of at least 20 g/10 min, for example approximately 24 g/10 min, for example based on a standard test method such as ASTM D 1238 or ISO 1133 or the like. The reservoir portion 3 includes a polymer configuration that has a relatively low impact strength, as compared to the polymer configuration of the lid 2. For example, the reservoir polymer may be relatively brittle as compared to the lid polymer. For example, the polymer has an Izod Impact Strength of approximately 106 J/m or less, for example approximately 53 J/m, based on ASTM D 256, Method A, at approximately 23° C. For example the reservoir portion 3 is made of PP (Polypropylene), for example low impact PP. The polymer configuration of the reservoir portion 3 may have a lower impact strength and a higher melt flow rate than the polymer configuration of the lid 2.
The lid 2 is mounted to the top edge 6 of the raised walls 5, 7, 9 to seal the inner chamber. The lid 2 may include a substantially flat base having a substantially rectangular circumferential edge to connect to the top edge 6. The lid 2 is separately molded from the reservoir portion 3. The lid 2 is defined by a single cast part, molded in a single mold process. In one example manufacturing method, the lid 2 is adhered to the reservoir portion 3 after foam has been placed in the reservoir portion 3.
The lid 2 is composed of a stronger polymer resin than the reservoir polymer. The lid polymer can have a relatively lower melt flow rate copolymer, for example having a melt flow rate (at 230° C./2.16 kg) of approximately 14 g/10 min or less, or of approximately 10 g/10 min or less, for example approximately 8 g/10 min, for example based on a standard test method such as ASTM D 1238 or ISO 1133 or the like. For example, the lid 2 includes a polymer configuration that has a relatively high impact strength as compared to the reservoir portion 3. For example the polymer of the lid has a notched Izod impact strength of at least approximately 25 kJ/m2, or of approximately 50 kJ/m2, based on a standard test method such as IS0180/1A at approximately 23° C. The polymer configuration of the lid 2 may also have a higher tensile strength than the polymer configuration of the reservoir portion 3. For example the lid 2 is made of PP, for example high impact PP. The polymer configuration of the lid 2 may have a lower melt flow rate, higher impact strength and higher tensile strength than the polymer configuration of the reservoir portion 3. While in this example the lid 2 and reservoir portion 3 are both made of different types PP, in other examples they can be made of different polymers, different resins, etc.
For reliable seal and vent functions, the lid 2 may be composed of stronger polymer configuration, while the larger reservoir portion 3 can be made of less strong, cheaper polymer configuration. This may allow for a generally cheap, relatively low environmental foot print cartridge 1 that at the same time is capable of holding relatively large ink volumes. The disclosed cartridge 1 may allow for effective use of both ink and resins, within predefined design constraints such as outer dimensions.
The reservoir portion 103 includes a cylindrical fluidic interconnect 113 protruding from the bottom wall 108, holding a fluidic interconnect filter that in turn is fluidically connected to foam in the inner ink chambers, to transport ink from the inner chambers to a corresponding printer fluidic interconnect. The fluidic interconnect 113 may be disposed near the front wall 105. The reservoir portion 103 may include a key profile 121 protruding from the front wall 105. The key profile may be I, T- or L shaped, for example.
In one example the reservoir portion 103 consist of a low impact, high melt flow rate polymer resin such as low impact PP, as explained above with reference to
A length L1 of the reservoir portion 103 as measured between the outside of the front wall 105 and the back wall 107 is between approximately 67 and 78 millimeter, for example approximately 72.2 millimeter. For example a length L2 of the reservoir portion 103 as measured between the front wall 105 and the extreme of the latch handle 111, for example formed by the grip 117, is between approximately 79 and 90 millimeter, for approximately 84.6 millimeter. A thickness T of the reservoir portion 103 as measured between outer surfaces of the side walls 109 (
The reservoir portion 103 includes corner fillets 129 connecting the side walls 109 with respective front and back walls 105, 107. For example the radius of the fillets 129 between respective side walls 109 and front or back walls 105, 107 is at least approximately 0.8 millimeter or at least approximately 1.1 millimeter, for example approximately 1.5 millimeters. For example, the living hinge 115 has a radius of at least 0.23 millimeters with respect to the back wall 107, for example approximately 0.28 millimeters. These relatively smooth corners and fillets 129, 115 may make the respective edges stronger, for example to compensate for a relatively low impact strength of the polymer resin of the reservoir portion 103.
As illustrated in
In one example, the volume of the free ink chamber 131 is at least approximately 6 cm3, or for example at least approximately 6.4 cm3, for example approximately 6.8 cm3. For example the inner volume of the foam chamber 135, as measured in an empty, foamless condition, is between approximately 8.8 and 10 cm3, for example approximately 9.4 cm3. The cartridge 101 may have a total fill rate of at least approximately 11 grams of pigment ink. Different ink colors may have different weights. For example a total ink weight of Cyan ink may be at least approximately 11.2 g, of Magenta ink at least approximately 11.9 g and of Yellow ink at least approximately 11 gram. In another example a filled cartridge 101 allows to print at least 800 pages up until exhaustion, for example at least approximately 825 pages, based on at least one of ISO/IEC 24711 and ISO/IEC 24712 or similar standard testing methods.
The lid 102 has a top 141 and a bottom 143. The lid 102 has an outer edge 145. For example, the lid bottom 143 includes a circumferential step 147 parallel to the outer edge 145, to fit onto a corresponding step of the top edge 106 of the reservoir portion 103.
The lid 102 further includes a base 149. A series of profiles, anchors and/or ribs may extend from the base into the respective chambers 131, 135. A thickness tb of the lid base 149 may be at least approximately 1 millimeter, for example approximately 2 millimeters.
The lid 102 includes at least one foam chamber retention profile 151 protruding from the bottom base 149, to fit into the foam chamber 131. The foam chamber retention profile 151 is rectangular shaped, to engage inner raised wall portions of the foam chamber 131. For example the foam chamber retention profile 151 engages inner top portions of the front wall 105, the side walls 109 and the separation wall 133 (see
The lid 102 further includes a free ink chamber retention profile 157 protruding from the lid base 149 to fit into the free ink chamber 157. The free ink chamber retention profile 157 may be a rectangular profile, to engage the inner walls of the free ink chamber 135. For example the free ink chamber retention profile 157 is to fit to inside top portions of the back wall 107, the side walls 109 and the separation wall 135 (see
The lid 102 includes at least one anchor 159 protruding from the bottom 143. In the illustrated example two opposite anchors 159 are provided. The anchor 159 is to press fit the lid 102 to the free ink chamber, facilitating a better anchoring of the lid 102 to the reservoir portion 103. The anchor 159 is higher than any of the free ink chamber retention profile 151, the foam retention ribs 153 and the foam chamber retention profile 157, as measured from the base 149. The anchor 159 has a height hr of at least 3.5 millimeters, or for example at least 5 millimeters, for example at least 6.5 millimeters, or for example approximately 7.7 millimeters, as measured from a base 149 of the lid 102 (
A main body 161 of the anchor 159 extends parallel to the back wall 107. The anchors 159 are to press fit against the back wall 107 and the separation wall 133. In the illustrated example, the anchor has wings 163 on top of, and flush with, the free ink chamber retention rib, that extend perpendicular to the main body 161. The wings 163 of the opposite anchors 159 point towards each other. For example, the wings 163 are to engage respective side walls 109 of the free ink chamber 135. Each anchor 159 may have rounded corners 165 at its distal end, for example at the corner of the main body 161 with the wings 163. The rounded corners 165 are to aid in press fitting the lid 102 to the reservoir portion 103. The disclosed anchors 159 may facilitate a better attachment and seal of the lid 102 to the reservoir portion.
The above explained example cartridges 1, 101 may hold relatively large amounts of ink within dimensional constraints, for example sufficient to print at least 800 or at least 825 pages, based on ISO/IEC 24711 and/or ISO/IEC 24712 or similar testing methods. While there could be an increased risk of leaking due to high fills and, as a consequence, high pressures inside the cartridge 1, 101, these risks may be moderated by the disclosed polymer resins, anchors 159 and/or other disclosed design features of the cartridge 1, 101. In addition, some of the disclosed construction examples are relatively cost- and material efficient.
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/US2013/062582 | 9/30/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/047382 | 4/2/2015 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4325646 | Sasaki | Apr 1982 | A |
6270207 | Sasaki | Aug 2001 | B1 |
6733115 | Santhanam et al. | May 2004 | B2 |
6796646 | Komplin et al. | Sep 2004 | B2 |
7384137 | Putman | Jun 2008 | B2 |
7445323 | Anderson et al. | Nov 2008 | B2 |
7475972 | Qingguo et al. | Jan 2009 | B2 |
20030035035 | Komplin | Feb 2003 | A1 |
20030184628 | Sasaki | Oct 2003 | A1 |
20040165045 | Sakai | Aug 2004 | A1 |
20050151811 | Shimizu | Jul 2005 | A1 |
20080018720 | Fukushima et al. | Jan 2008 | A1 |
20080021170 | Fukushima | Jan 2008 | A1 |
20080165214 | Yuen | Jul 2008 | A1 |
20080204524 | Petranek | Aug 2008 | A1 |
20120198686 | Kitagawa et al. | Aug 2012 | A1 |
20150035915 | Murphy | Feb 2015 | A1 |
20160152038 | Sittampalam | Jun 2016 | A1 |
20170165976 | Paranan | Jun 2017 | A1 |
Number | Date | Country |
---|---|---|
1038678 | Sep 2000 | EP |
Entry |
---|
PCT International Search Report and Written Opinion, dated Jun. 16, 2014, PCT Patent Application No. PCT/US2013/062582, Hewlett-Packard Development Company, L.P., Korean Intellectual Property Office, 11 pages. |
Number | Date | Country | |
---|---|---|---|
20160236477 A1 | Aug 2016 | US |