WO2018028411A1 - 墨盒芯片、墨盒及喷墨打印机 - Google Patents
墨盒芯片、墨盒及喷墨打印机 Download PDFInfo
- Publication number
- WO2018028411A1 WO2018028411A1 PCT/CN2017/093750 CN2017093750W WO2018028411A1 WO 2018028411 A1 WO2018028411 A1 WO 2018028411A1 CN 2017093750 W CN2017093750 W CN 2017093750W WO 2018028411 A1 WO2018028411 A1 WO 2018028411A1
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- WIPO (PCT)
- Prior art keywords
- ink cartridge
- chip
- mounting
- stylus
- cartridge chip
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/1752—Mounting within the printer
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/17526—Electrical contacts to the cartridge
- B41J2/1753—Details of contacts on the cartridge, e.g. protection of contacts
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/17543—Cartridge presence detection or type identification
- B41J2/17546—Cartridge presence detection or type identification electronically
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
- B41J2/17—Ink jet characterised by ink handling
- B41J2/175—Ink supply systems ; Circuit parts therefor
- B41J2/17503—Ink cartridges
- B41J2/17553—Outer structure
Definitions
- the present invention relates to the field of inkjet printing technology, and in particular to an ink cartridge chip, an ink cartridge, and an inkjet printer.
- the chips for printers are used to store information such as manufacturer information, ink amount information, cartridge type information, ink color, etc.
- the chips for inkjet printers play a decisive role in the normal operation of inkjet printers.
- the Chinese Patent Publication No. 201020599870.2 discloses an ink cartridge chip and an ink cartridge.
- the chip 20 has a plurality of grooves 22, each of which has a conductive member 25 therein. .
- the prior art has the following drawbacks: since the chip is also miniaturized with the miniaturization of the printer and the ink cartridge, the spacing between each terminal is also smaller.
- the thickness of the stylus 7 is also getting thinner and thinner, and in order to better achieve the contact between the conductive member 25 and the stylus, the groove 22 and the open end 23 are also smaller and smaller, which makes the chip processing difficult (small processing) And the deep groove), the installation precision is high.
- the stylus may not slide into the groove 22, which may cause the chip to be in poor contact and the stylus may be damaged (bent). condition.
- the invention provides an ink cartridge chip, an ink cartridge and an inkjet printer, which are used for solving the problems existing in the prior art which are liable to cause poor contact of the chip and damage of the stylus.
- a first aspect of the present invention is to provide an ink cartridge chip for electrically connecting to a stylus in a mounting portion, wherein the ink cartridge chip is provided with a receiving groove, and the receiving groove is provided with The contact where the stylus contacts.
- a second aspect of the present invention is to provide a detachable ink cartridge mounted to a mounting portion, comprising: the above-described ink cartridge chip for engaging a stylus of the mounting portion.
- a third aspect of the present invention is to provide an ink cartridge mountable to a mounting portion, comprising: the above-described ink cartridge chip.
- a fourth aspect of the invention is to provide an ink jet printer comprising: the above described ink cartridge.
- the ink cartridge chip, the ink cartridge and the inkjet printer provided by the invention are provided with a receiving groove for accommodating the stylus on the ink cartridge chip, and at least two inner portions for contacting the stylus are disposed in the accommodating groove
- the contact portion prevents the stylus from slipping into the groove during the installation process of the ink cartridge chip, and the stylus may not be able to slip into the groove, and the stylus may be damaged (bent), and the ink cartridge is ensured.
- the stable and effective contact between the chip and the stylus improves the stability and reliability of the use of the ink cartridge chip, and is beneficial to the promotion and application of the market.
- FIG. 1 is a schematic structural view 1 of a chip in the prior art
- FIG. 2 is a schematic view showing a mating of a chip and a terminal frame in the prior art
- FIG. 3 is a schematic structural view 1 of a chip according to Embodiment 1 of the present invention.
- FIG. 4 is a second schematic structural diagram of a chip according to Embodiment 1 of the present invention.
- FIG. 5 is a schematic structural view 1 of a chip according to Embodiment 2 of the present invention.
- FIG. 6 is a second schematic structural diagram of a chip according to Embodiment 2 of the present invention.
- FIG. 7 is a schematic structural diagram of a chip according to Embodiment 3 of the present invention.
- FIG. 8 is a first schematic structural view of a chip in contact with a stylus according to Embodiment 1 of the present invention.
- FIG. 9 is a second schematic structural view of a chip in contact with a stylus according to Embodiment 1 of the present invention.
- FIG. 10 is a first schematic structural view of a chip in contact with a stylus according to a second embodiment of the present invention.
- FIG. 11 is a second schematic structural view of a chip in contact with a stylus according to Embodiment 2 of the present invention.
- FIG. 12 is a schematic structural view of a chip in contact with a stylus according to Embodiment 3 of the present invention.
- FIG. 13 is a schematic structural diagram 1 of a chip according to Embodiment 4 of the present invention.
- FIG. 14 is a second schematic structural diagram of a chip according to Embodiment 4 of the present invention.
- FIG. 15 is a schematic structural view 3 of a chip according to Embodiment 4 of the present invention.
- FIG. 16 is a first schematic diagram of a connection between a chip and a chip carrier according to Embodiment 4 of the present invention.
- FIG. 17 is a second schematic diagram of a connection between a chip and a chip carrier according to Embodiment 4 of the present invention.
- FIG. 18 is a schematic structural view of a chip in contact with a stylus according to Embodiment 4 of the present invention.
- FIG. 19 is a first schematic structural view showing an installation structure of an ink cartridge and a chip according to Embodiment 1 of the present invention.
- 20 is a second schematic view showing the mounting structure of the ink cartridge and the chip according to the first embodiment of the present invention.
- 21 is a first schematic structural view showing an installation structure of an ink cartridge and a chip according to a second embodiment of the present invention.
- Figure 22 is a second schematic view showing the mounting structure of the ink cartridge and the chip according to the second embodiment of the present invention.
- FIG. 23 is a schematic structural view 1 of an ink cartridge chip according to Embodiment 5 of the present invention.
- FIG. 24 is a second schematic structural view of an ink cartridge chip according to Embodiment 5 of the present invention.
- FIG. 25 is a schematic structural view 3 of an ink cartridge chip according to Embodiment 5 of the present invention.
- Figure 26 is a first schematic structural view of an ink cartridge chip according to a sixth embodiment of the present invention.
- Figure 27 is a second schematic structural view of an ink cartridge chip according to a sixth embodiment of the present invention.
- FIG. 29 is a schematic diagram showing a split structure of a chip carrier according to Embodiment 1 of the present invention.
- FIG. 30 is a schematic structural view 1 of a chip carrier according to a second embodiment of the present invention.
- FIG. 31 is a second schematic structural diagram of a chip carrier according to Embodiment 2 of the present invention.
- FIG. 32 is a third schematic structural diagram of a chip carrier according to Embodiment 2 of the present invention.
- FIG. 33 is a schematic structural diagram of a chip after being supported and fixed by a chip carrier according to Embodiment 2 of the present invention.
- FIG. 34 is a first schematic structural diagram of a mounting structure of a chip carrier and a chip according to Embodiment 2 of the present invention.
- 35 is a second schematic structural view of a mounting structure of a chip carrier and a chip according to Embodiment 2 of the present invention.
- FIG. 36 is a third schematic structural view of a mounting structure of a chip carrier and a chip according to Embodiment 2 of the present invention.
- FIG. 37 is a schematic structural view 1 of a chip carrier according to a third embodiment of the present invention.
- FIG. 38 is a second schematic structural diagram of a chip carrier according to Embodiment 3 of the present invention.
- FIG. 39 is a first schematic structural view showing a connection structure between a chip and a stylus in an ink cartridge according to Embodiment 1 of the present invention.
- FIG. 40 is a second schematic structural view of a connection between a chip and a stylus in an ink cartridge according to Embodiment 1 of the present invention.
- FIG. 41 is a third schematic structural view of a connection between a chip and a stylus in an ink cartridge according to Embodiment 1 of the present invention.
- connection structure 42 is a fourth structural diagram of a connection structure between a chip and a stylus in an ink cartridge according to Embodiment 1 of the present invention.
- Figure 43 is a schematic structural view of an ink cartridge according to Embodiment 1 of the present invention.
- Figure 46 is a schematic view showing the mounting of a chip and a chip holder in an ink cartridge according to a second embodiment of the present invention.
- Figure 47 is a schematic structural view of a mounting portion for mounting an ink cartridge of the present invention.
- Figure 48 is a first schematic structural view of an ink cartridge according to a third embodiment of the present invention.
- FIG. 49 is a second schematic structural view of an ink cartridge according to Embodiment 3 of the present invention.
- 50a is a schematic structural view 1 of a chip carrier according to Embodiment 4 of the present invention.
- Figure 50b is a second schematic structural view of a chip carrier according to a fourth embodiment of the present invention.
- Figure 51a is a first schematic structural view of a chip carrier and an ink cartridge chip according to a third embodiment of the present invention.
- Figure 51b is a second schematic structural view of a chip carrier and an ink cartridge chip according to a third embodiment of the present invention.
- Figure 51c is a third schematic structural view of a chip carrier and an ink cartridge chip according to a third embodiment of the present invention.
- Figure 51d is a fourth schematic structural view of a chip carrier and an ink cartridge chip according to a third embodiment of the present invention.
- 51e is a fifth schematic structural diagram of a chip carrier and an ink cartridge chip according to Embodiment 3 of the present invention.
- 51f is a sixth structural diagram of a chip carrier and an ink cartridge chip according to Embodiment 3 of the present invention.
- Figure 52 is a third schematic structural view of an ink cartridge according to Embodiment 3 of the present invention.
- Figure 53a is a partial structural schematic view of a housing of a third embodiment of the present invention.
- Figure 53b is a partial structural view of the housing of the third embodiment of the present invention.
- Figure 53c is a partial structural view 3 of the housing of the third embodiment of the present invention.
- Figure 54 is a first schematic structural view of an ink cartridge according to a fourth embodiment of the present invention.
- Figure 55 is a schematic exploded view of an ink cartridge according to Embodiment 4 of the present invention.
- Figure 56a is a partial structural schematic view of a housing of a fourth embodiment of the present invention.
- Figure 56b is a partial structural view of the housing of the fourth embodiment of the present invention.
- Figure 56c is a partial structural view 3 of the housing of the fourth embodiment of the present invention.
- 57 is a schematic view showing the position of the ink cartridge chip in contact with the second group of styli when the ink cartridge is mounted according to the fourth embodiment of the present invention.
- Figure 58a is a schematic view showing the position between the first group of styli and the second group of styli when the ink cartridge is mounted in the fourth embodiment of the present invention
- Figure 58b is a second schematic view showing the position between the first set of styli and the second set of stylus when the ink cartridge is mounted in the fourth embodiment of the present invention
- Figure 59a is a schematic view showing the position of the ink cartridge according to the fourth embodiment of the present invention.
- Figure 59b is a second schematic view showing the position of the ink cartridge when the ink cartridge is taken out according to the fourth embodiment of the present invention.
- Figure 60 is a schematic view showing the structure of an ink cartridge according to a fifth embodiment of the present invention.
- first and second are used merely to facilitate the description of different components, and are not to be construed as indicating or implying a sequential relationship, relative importance, or implicit indication of the number of technical features indicated. Thus, features defining “first” or “second” may include at least one of the features, either explicitly or implicitly.
- the embodiment provides an ink cartridge chip for electrically connecting with a stylus in the mounting portion.
- the ink cartridge chip is provided with a receiving groove, and the receiving groove is provided with a contact portion for contacting the stylus.
- the embodiment provides an ink cartridge chip 1 electrically connected to a plurality of stylus pins 7 in a printer mounting portion.
- the ink cartridge chip 1 is provided with a receiving slot 2 for accommodating the stylus 7.
- the receiving groove 2 is provided with at least two inner connecting terminals for contacting the stylus 7, and the inner connecting terminal is provided with an inner contact portion 201, and the stylus 7 is in contact with the inner contact portion 201.
- the specific shape and structure of the ink cartridge chip 1 and the accommodating groove 2 are not limited in this embodiment, and those skilled in the art can set according to specific design requirements.
- the ink cartridge chip 1 can be set in a rectangular shape or can be set as a square or an ellipse.
- the accommodating groove 2 may be provided as a rectangular groove or a trapezoidal groove or the like; in particular, when the accommodating groove 2 has a rectangular structure, the contact surface of the inner contact portion 201 is The side surface (first plane 101) of the ink cartridge chip 1 is perpendicular; when the receiving groove 2 has a trapezoidal structure, the contact surface where the inner contact portion 201 is located is an inclined surface, and the contact surface at this time is substantially perpendicular to the side surface;
- the specific number of 201 is not limited.
- the number of the inner contact portions 201 may be set to two, three or four, etc., and the width of the receiving groove 2 may be set to be wider, which is effective.
- the number of the receiving slots 2 provided on the ink cartridge chip 1 is at least one, and the specific number of the receiving slots 2 can be set according to specific design requirements; and when the number of the receiving slots 2 is one, such as As shown in FIG. 3-4, a part of the connection terminals may be disposed in the accommodating groove 2, and some of the connection terminals are disposed on the first plane 101.
- the terminals disposed in the accommodating groove 2 may be more important connection terminals, for example, a power supply terminal.
- the number of the receiving slots 2 is plural, as shown in FIG. 5-6, all the connecting terminals can be disposed in the receiving slot 2, thereby effectively overcoming the existing ones. Defects in the technology that are liable to cause poor chip contact and damage to the stylus 7.
- the ink cartridge chip 1 provided in this embodiment is provided with a receiving groove 2 for accommodating the stylus 7 on the ink cartridge chip 1, and at least two inner contacts for contacting the stylus 7 are disposed in the accommodating groove 2.
- a receiving groove 2 for accommodating the stylus 7 on the ink cartridge chip 1
- at least two inner contacts for contacting the stylus 7 are disposed in the accommodating groove 2.
- the ink cartridge chip 1 is generally arranged in a rectangular structure and has a rectangular structure.
- the ink cartridge chip 1 includes a first plane 101 and a third plane 103 perpendicularly intersecting the first plane 101.
- the surface area of the first plane 101 is smaller than the surface area of the third plane 103; wherein the third plane 103 of the ink cartridge chip 1 is perpendicular to the ink cartridge.
- the mounting direction of the chip 1 and the center line of the ink outlet on the ink cartridge may be perpendicular to the third plane 103.
- the first plane 101 is provided with at least one receiving groove 2, and each of the inner contact portions 201 disposed in the receiving groove 2 is at a predetermined angle with the first plane 101.
- the ink cartridge chip 1 has a first plane 101, a second plane 102, a third plane 103, a fourth plane 104, a fifth plane 105 and a sixth plane 106, wherein the first plane 101 and the second plane
- the planes 102 are opposite and parallel
- the third plane 103 and the fourth plane 104 are opposite and parallel
- the fifth plane 105 and the sixth plane 106 are opposite and arranged in parallel
- the first plane 101 and the third plane 103 and the fourth plane are respectively arranged.
- the fifth plane 105 and the sixth plane 106 are substantially vertical connections, and the second plane 102 is substantially perpendicularly connected to the third plane 103, the fourth plane 104, the fifth plane 105, and the sixth plane 106, and the third plane 103
- the surface area of the fourth plane 104 is the largest, and therefore, electrical components such as the memory 5 and the like can be disposed on the third plane 103 or the fourth plane 104, so that the configurable area of the electrical component is large, and is disposed on the ink cartridge chip 1.
- the distance between the electrical components is large, the interference between the electrical components is reduced, and the use effect of the ink cartridge chip 1 is further ensured.
- the specific numerical range of the preset angle formed by the inner contact portion 201 and the first plane 101 is not limited, and those skilled in the art can set according to specific design requirements, wherein, preferably, the preset angle can be set. It is set to 90°, so that the inner contact portion 201 is perpendicular to the first plane 101.
- the use effect further ensures the stable reliability of the use of the ink cartridge chip 1; of course, those skilled in the art can also set the surface of the inner contact portion 201 at a certain angle with the first plane 101, as long as it can achieve better contact with the touch.
- the technical effect of the contact of the needle 7 can be omitted, and will not be described herein.
- the number of the receiving slots 2 provided on the first plane 101 is insufficient to provide a connecting terminal that is in contact with all the stylus pins 7.
- a receiving groove 2 and an outer contact portion 3 for contacting the stylus 7 may be provided on the first plane 101.
- the outer contact portion 3 has the same function as the inner contact portion 201 for contacting the stylus 7. The difference is that the outer contact portion 3 is disposed on the first plane 101, and the inner contact portion 201 is disposed to receive
- the specific position of the inner contact portion 201 disposed in the accommodating groove 2 is not limited, and those skilled in the art can set according to specific design requirements.
- the inner contact portion 201 can be set to It is located on the groove end surface 202 of the accommodating groove 2 that intersects the first plane 101. This can effectively reduce the occurrence of the stylus 7 disposed in the accommodating groove 2 being easily broken and unable to be installed in place, and being disposed in the accommodating groove.
- the two inner contact portions 201 in the two are oppositely disposed, which reduces the interference between the inner connecting terminals, and further ensures the stable reliability of the use of the ink cartridge chip 1.
- the number of the accommodating slots 2 can be set to multiple, and the plurality of accommodating slots 2 are all disposed on the first plane 101; in order to further ensure the stylus 7 It can be mounted in position, and the accommodating groove 2 functions to guide the stylus 7, and the width dimension of the accommodating groove 2 can also be set to be gradually smaller in a direction away from the first plane 101.
- the stylus 7 does not contact the bottom surface of the stylus 7; if the bottom surface is closer to the stylus 7, the pressure of the stylus 7 due to the installation is greater after the cartridge chip 1 is mounted to the mounting portion, and the stylus 7 is easily attached.
- the head causes damage; of course, the above two methods are applied to different situations, and the specific ones can be selected and set according to the user's design requirements.
- the width dimension of the accommodating groove 2 By setting the width dimension of the accommodating groove 2 to be gradually smaller in a direction away from the first plane 101, not only can the stylus 7 and the contact portion be stably, efficiently, and better contacted, but also the bottom of the accommodating groove 2 is reduced.
- the mounting pressure caused by the stylus 7 further ensures the stable reliability of the use of the ink cartridge chip 1.
- the number of connection terminals on the ink cartridge chip 1 may be an odd number, for example, 7, 9, 11, etc.; or may be an even number, for example, 6, 8, 10, etc.
- the inner contact portion 201 on the at least two inner connection terminals may be disposed in the accommodating groove 2
- the contact portion on the other connection terminals may be disposed on the first plane 101, as shown in FIG.
- each of the Holding tank 2 Two inner contact portions 201 are disposed in the interior; or, the plurality of receiving grooves 2 may be disposed to include the first receiving groove 21 and the second receiving groove 22, and the first receiving groove 21 is provided with two inner contact portions.
- the second receiving portion 22 is provided with three inner contact portions 201, wherein the three inner contact portions 201 are respectively disposed on the two groove end faces 202 and one bottom end surface 203 of the second receiving groove 22, and the arrangement manner can be It is avoided that the stylus 7 in the background art is broken and cannot be mounted in place during the installation process due to the small accommodating groove 2. At the same time, the interference between the terminals is also effectively reduced.
- the side groove 6 may be further disposed on one side of the plurality of receiving slots 2 on the first plane 101.
- a side contact portion 601 for contacting the stylus 7 is disposed in the side groove 6.
- the specific position of the side contact portion 601 disposed on the side groove 6 is not limited, and a person skilled in the art can design according to a specific design. It is preferable to provide the side contact portion 601 as the side end surface of the side groove 6 adjacent to the accommodating groove 2, which facilitates the contact of the stylus 7 with the side contact portion 601.
- the first plane 101 may be provided with a receiving groove 2, the receiving groove 2 is provided with at least two inner contact portions 201, and the contact portions of the other connecting terminals are disposed at the Or a plurality of receiving slots 2 are disposed on the first plane 101, and each of the receiving slots 2 is provided with two inner contact portions 201.
- a side groove 6 is further disposed at a side of the first plane 101 at the side of the plurality of receiving grooves 2, and a side contact portion 601 for contacting the stylus 7 is disposed in the side groove 6, as shown in FIG.
- the plurality of accommodating grooves 2 may be disposed to include a first accommodating groove 21 and a second accommodating groove 22, and the first accommodating groove 21 is provided with two inner contact portions 201, and the second accommodating groove 22 is disposed.
- the applicable range of the ink cartridge chip 1 improves the usability of the ink cartridge chip 1.
- the ink cartridge chip 1 can be configured as a soft board chip, and the soft board chip includes: a first connecting portion 9 and a first connecting portion 9
- the second connecting portion 10 is connected to the second connecting portion 10 and is formed with at least one receiving groove 2.
- the length of the second connecting portion 10 is larger than the length of the first connecting portion 9 to facilitate the receiving groove 2.
- the receiving groove 2 can be formed not only by folding, but also the soft chip can be mounted on the chip carrier 11, and the soft chip passes through the core.
- the support and fixing of the frame 11 form a receiving groove 2, that is, the receiving groove 2 may be disposed before the ink cartridge chip 1 is mounted, or may be formed after the ink cartridge chip 1 is mounted; in addition, the number of the receiving grooves 2 may be It is provided as one or more, and may also be disposed in the plurality of accommodating grooves 2 to include the first accommodating groove 21 and the second accommodating groove 22 in the above embodiment as long as the ink cartridge chip 1 and the stylus 7 can be made effective. Stable contact can not be repeated here.
- the ink cartridge chip 1 By arranging the ink cartridge chip 1 as a soft board chip and causing the soft board chip to form the accommodating groove 2 by folding or support and fixing of the chip holder 11, the stability and effective contact of the soft board chip with the stylus 7 are effectively ensured.
- the utility model avoids the damage of the stylus 7 and improves the application range of the ink cartridge chip 1, which is beneficial to the promotion and application of the market.
- the embodiment provides a detachable ink cartridge 8 mounted in the printer mounting portion.
- the printer mounting portion includes: a plurality of stylus pins 7, the plurality of stylus pins 7 being perpendicular to the ink cartridge 8 Mounted in the mounting direction in the mounting direction in two rows.
- the specific number of the stylus 7 is not limited, and those skilled in the art can set according to specific design requirements.
- the number of the stylus 7 can be set to 6, 7 or the like, wherein Generally, the number of the stylus pins 7 is seven, and the seven stylus pins 7 are arranged in two rows in a direction perpendicular to the mounting of the ink cartridge 8 into the mounting portion, as specifically shown in FIG. 9;
- the specific structure of the contact pin 7 in contact with the ink cartridge chip 1 can be referred to FIGS.
- the ink cartridge 8 By arranging the ink cartridge 8 with the above-described ink cartridge chip 1, in particular, by arranging a receiving groove 2 for accommodating the stylus 7 on the ink cartridge chip 1, and at least two for accommodating the stylus 7 are provided in the accommodating groove 2.
- the inner contact portion 201 of the contact prevents the stylus 7 from slipping into the groove during the installation process of the ink cartridge chip 1.
- the contact of the ejector pin 7 may be easily caused, and the stylus 7 may be damaged ( In the case of bending, the stable and effective contact between the ink cartridge chip 1 and the stylus 7 is ensured, thereby improving the stability and reliability of the use of the ink cartridge 8, and facilitating the promotion and application of the market.
- the specific arrangement of the inner contact portion 201 in this embodiment is not limited, and those skilled in the art can set according to specific design requirements, and are more preferable.
- the inner contact portion 201 on the ink cartridge chip 1 is disposed on the inner connecting terminal, and the inner connecting terminals are arranged in a row in a mounting direction perpendicular to the mounting of the ink cartridge 8 into the mounting portion.
- the inner connecting terminal is a connecting terminal disposed in the accommodating groove 2, and the inner connecting terminal is disposed in a row arranged in a direction perpendicular to the mounting of the ink cartridge 8 to the mounting portion, and the inner contact portion 201 is disposed therein. Therefore, the inner contact portions 201 are also arranged in a row in a mounting direction perpendicular to the mounting of the ink cartridge 8 into the mounting portion, such that the inner contact portion 201 and the stylus 7 are arranged in a manner corresponding to the stylus 7
- the contact with the inner contact portion 201 ensures the contact effect of the ink cartridge chip 1, thereby improving the stability and reliability of the use of the ink cartridge 8.
- the specific implementation manner of the ink cartridge chip 1 mounted on the ink cartridge 8 is not limited in this embodiment, and those skilled in the art can set according to specific design requirements.
- the ink cartridge chip 1 is provided with a positioning portion 4, and the ink cartridge 8 is provided with a connecting portion 801 that cooperates with the positioning portion 4, and the ink cartridge chip 1 is mounted on the ink cartridge 8 via the positioning portion 4 and the connecting portion 801.
- the positioning portion 4 is not limited, and those skilled in the art can set according to specific design requirements.
- the positioning portion 4 is disposed in a positioning slot adapted to the ink cartridge chip 1, and the ink cartridge chip 1 is positioned.
- the slot can be stably mounted on the ink cartridge 8 or the like, as long as the cartridge chip 1 can be stably and efficiently mounted on the ink cartridge 8, and details are not described herein.
- the ink cartridge chip 1 in addition to the above manner of directly mounting the ink cartridge chip 1 on the ink cartridge 8 through the positioning portion 4, those skilled in the art can also use the ink cartridge chip 1 in other manners.
- the ink cartridge chip 1 is disposed to be mounted on the ink cartridge 8 through the chip carrier 11.
- the specific shape and structure of the chip carrier 11 are not limited, and those skilled in the art can set according to specific design requirements.
- the ink cartridge chip 1 must first be implemented.
- the connection of the chip holder 11 is specifically provided with a positioning portion 4 on the ink cartridge chip 1.
- the positioning portion 4 can be a mounting hole, and the chip is mounted on the ink cartridge chip 1 through the mounting hole and the positioning member 12.
- a connecting rod may be disposed on the chip carrier 11, and the ink cartridge 8 is provided with a connecting rod groove matched with the connecting rod, and the chip holder 11 is connected through the connecting rod.
- Rod slot When the ink cartridge 8 is mounted on the ink cartridge 8, the ink cartridge chip 1 can be brought into contact with the stylus 7, as shown in FIG.
- the ink cartridge chip 1 is mounted on the ink cartridge 8 through the chip carrier 11.
- the ink cartridge chip 1 at this time can be a soft chip chip, which not only effectively ensures the stable reliability of the installation of the ink cartridge chip 1, but also expands the application range of the ink cartridge chip 1.
- the utility model further improves the stability and reliability of the use of the ink cartridge 8, and is beneficial to the promotion and application of the market.
- the ink cartridge chip 1 includes a first plane 101 and a third plane 103 perpendicularly intersecting the first plane 101.
- the surface area of the first plane 101 is smaller than that of the first plane 101.
- the surface of the three-plane 103 is arranged to further include: an ink outlet, a bottom surface and a side surface, wherein the plane on which the ink outlet is located is a bottom surface, and the surface perpendicular to the bottom surface for mounting the ink cartridge chip 1 is a side surface; After the ink cartridge chip 1 is mounted on the ink cartridge 8, the contact portion on the ink cartridge chip 1 protrudes from the side surface; and at least one contact portion is perpendicular to the side surface.
- the contact portion on the ink cartridge chip 1 is disposed to protrude from the side surface of the ink cartridge 8, which effectively facilitates contact between the stylus 7 and the contact portion on the ink cartridge chip 1, and ensures contact between the stylus 7 and the ink cartridge chip 1. Stable reliability of the contact; in addition, since the ink cartridge chip 1 is provided with at least one receiving groove 2, and the receiving groove 2 is provided with at least two inner contact portions 201 for contacting the stylus 7, and at this time
- the contact portion 201 may have a predetermined angle with the side surface. More preferably, the predetermined angle may be 90°.
- Chinese Patent No. 201320875786.2 discloses an ink cartridge chip, an ink cartridge, and an inkjet printer, wherein the chip includes five lower row chip contacts and four upper row chip contacts, in the cartridge chip and stylus structure.
- the ink cartridge chip contacts the contacts the lower row of chip contacts includes a contact portion at an end thereof, the contact portion is adjacent to a convex portion of the lower row of the ink cartridge chip stylus, and the upper row of chip contacts includes a contact portion at an end thereof. The contact portion is adjacent to the raised portion of the upper row of ink cartridge chip contacts.
- the contact portion for contact with the stylus is a pointed convex structure
- the pointed convex structure is difficult to manufacture, the precision is difficult to control, and the manufacturing is difficult; in addition, during the mounting process, when the chip and the stylus are When the upper row is in contact, it will be subjected to the lateral force given by the stylus, and the chip is easy to shake, which may easily cause the chip to be misaligned and affect the normal use of the chip.
- the present embodiment provides another ink cartridge chip 1 for electrically connecting with the stylus 7 in the mounting portion, and the ink cartridge chip 1 is provided with a plurality of smoothly connected first recesses 107 and a plurality of smoothly connected second recesses 108,
- the first recess 107 is disposed on the first surface 109 of the ink cartridge chip 1
- the second recess 108 is disposed on the second surface 1010 of the ink cartridge chip 1.
- the first recess 107 is recessed toward the second surface 1010, and the second recess 108 is oriented.
- the direction of the first surface 109 is recessed, and the first recess 107 and the second recess 108 are each provided with a contact portion 13 for contacting the stylus 7.
- the shape structure of the ink cartridge chip 1 may be a rectangular structure, a square structure or an elliptical structure.
- the specific shape of the ink cartridge chip 1 may be set according to design requirements. More commonly, the ink cartridge chip 1 is arranged in a rectangular structure, and Since the plurality of first recesses 107 are smoothly connected, and thus the plurality of first recesses 107 constitute a first wave-shaped structure, similarly, the plurality of second recesses 108 are smoothly connected, thereby causing the plurality of second recesses 108 to constitute a second undulating structure, and since the first recess 107 is disposed on the first surface 109 and the second recess 108 is disposed on the second surface 1010, for the ink cartridge chip 1, the first surface 109 and the first surface are preferably The two surfaces 1010 are disposed to be disposed in parallel, such that the second undulating structure formed by the plurality of second recesses 108 is parallel to the first undulating structure formed by the plurality of first recesses
- the first surface 109 is a concave structure, then at the same position on the second surface 1010 opposite to the first surface 109 is a convex structure; if the first surface 109 is a convex structure, then At the same position on the second surface 1010 opposite to the first surface 109, it is a recessed structure, which effectively reduces the manufacturing process difficulty of the ink cartridge chip 1, and also effectively reduces the manufacturing cost of the ink cartridge chip 1.
- the contact portion 13 needs to be disposed on the connection terminal 14, and the size and width of the connection terminal 14 can be adjusted according to the size and space of the ink cartridge chip 1, and the connection terminal
- the size and width of the 14 may be inconsistent, and an additional terminal 19 that cannot be in contact with the stylus 7 may be disposed on the ink cartridge chip 1, and the additional terminal 19 may be used for short-circuit detection of other terminals, etc.;
- the contact portion 13 in contact with the stylus 7 can be disposed in the first recess portion 107 and the second recess portion 108, and the plurality of first recess portions 107 are smoothly connected, and the plurality of second recess portions 108 are smoothly connected, thereby further in the ink cartridge.
- the first recess 107 and the second recess 108 can guide the stylus 7.
- the cartridge chip 1 and the stylus 7 are prevented from being misplaced, and the normal use effect of the cartridge chip 1 is effectively ensured.
- the ink cartridge chip 1 provided in this embodiment has a plurality of smoothly connected second recesses 108 disposed on the second surface 1010 through a plurality of smoothly connected first recesses 107 provided on the first surface 109 of the cartridge chip 1.
- the contact portion 13 for contacting the stylus 7 is disposed in the first recess 107 and the second recess 108, which not only makes the designable space of the contact portion 13 large, but also reduces manufacturing difficulty and process difficulty, and at the same time
- the first recessed portion 107 and the second recessed portion 108 form a guiding effect on the stylus 7 during the installation process of the ink cartridge chip 1 and the stylus 7, avoiding the occurrence of the chip contact misalignment, and ensuring the normal use effect of the ink cartridge chip 1.
- the utility of the ink cartridge chip 1 is improved, which is beneficial to the promotion and application of the market.
- the ink cartridge chip 1 may include not only the first surface 109 and the second surface 1010 opposite to the first surface 109, the ink cartridge chip 1 may further include an edge surface 1011, an edge surface 1011, and connected to the ends of the first surface 109 and the second surface 1010, and the edge surface 1011 forms a predetermined angle with the first surface 109 and the second surface 1010, respectively.
- the preset angle may be 90° or other angles, etc., and the specific angle range may be set according to design requirements, and details are not described herein; further, when the ink cartridge chip 1 includes the edge surface 1011, the specific setting for the contact portion 13
- the position is not limited, and those skilled in the art can set according to specific design requirements.
- the contact portion 13 can be disposed to abut against the edge surface 1011; or, a gap is provided between the contact portion 13 and the edge surface 1011;
- the abutting edge surface 1011 in this embodiment may include a case where the contact portion 13 is connected to the edge surface 1011 and the contact portion 13 is infinitely close to the edge surface 1011.
- the contact portion 13 and the edge surface 1011 are infinitely close to each other.
- the distance between the contact portion 13 and the edge surface 1011 is less than or equal to a preset threshold.
- the preset threshold may be set according to specific design requirements, for example, may be set to 1 mm or 2 mm, etc.
- a spacing is provided between the contact portion 13 and the edge surface 1011, and the spacing is greater than a preset threshold.
- the spacing is designed. The distance between the contact portion 13 and the edge surface 1011 can be directly observed by a person, and the specific spacing distance can be set according to specific design requirements, as long as the contact between the stylus 7 and the contact portion 13 can be achieved. No longer.
- the specific structure of the stylus 7 for contacting the contact portion 13 is not limited in this embodiment, wherein the stylus 7 is arranged to include two rows of stylus pins, wherein one row of stylus pins is the upper stylus pin 701 and the other row of stylus pins is the lower stylus pin 702 in a direction parallel to the edge face 1011 of the cartridge chip 1 It is observed that the row structure formed by the upper stylus 701 is parallel to the row structure formed by the lower stylus 702, and the upper stylus 701 is spaced apart from the lower stylus 702; in order to facilitate contact between the contact portion 13 and the stylus 7,
- the contact portion 13 may be provided to include an upper contact portion 1302 for contacting the upper contact pin 701 and a lower contact portion 1301 for contacting the lower contact pin 702, and the upper contact portion 1302 is disposed in the first recess portion 107
- the contact portion 13 is disposed on the connection terminal 14, when the contact portion 13 includes the upper contact portion 1302 and the lower contact portion 1301, correspondingly, the connection terminal 14 includes the upper terminal 1402 and the lower terminal 1401, and the upper contact portion 1302 is disposed on the upper terminal 1402, the lower contact portion 1301 is disposed on the lower terminal 1401, and the upper contact portion 1302 and the lower contact portion 1301 are both for contacting with the stylus 7; in addition, when the upper contact portion 1302 is disposed at the first In the recess 107, when the lower contact portion 1301 is disposed in the second recess 108, in order to ensure the contact effect between the upper contact portion 1302 and the upper contact pin 701, the lower contact portion 1301 and the lower contact pin 702, it is preferable to make the upper contact The portion 1302 is disposed at a position where the first recess portion 107 is adjacent to the second surface 1010, and the lower contact portion 1301 is disposed at a position where the second recess portion 108 is adjacent to the first surface
- the lower contact portion 1301 is disposed at a specific position within the second recess 108 such that the contact of the stylus 7 by the first recess 107 and the second recess 108 is effective during contact with the stylus 7. Guiding role The upper contact pin 701 is brought into contact with the upper contact portion 1302 disposed in the first recess portion 107, and the lower contact pin 702 is in contact with the lower contact portion 1301 disposed in the second recess portion 108, and the misalignment slipping is less likely to occur.
- the stability of the contact of the contact pin 7 with the contact portion 13 is ensured, thereby improving the normal use effect of the ink cartridge chip 1.
- those skilled in the art can also set the upper contact portion 1302 at other positions of the first recess 107.
- the lower contact portion 1301 is disposed at other positions of the second recess portion 108, as long as the above technical effects can be achieved or approached, and details are not described herein again.
- the ink cartridge chip 1 can be made of a material such as FR-4, and the ink cartridge chip 1 is formed into a first concave portion 107 and a second concave portion 108 by punching or the like; that is, the first concave portion is formed in a natural state after the ink cartridge chip 1 is manufactured. 107 and second recess 108.
- the ink cartridge chip 1 can also be manufactured by wire cutting or the like to form the first concave portion 107 and the second concave portion 108; that is, after the ink cartridge chip 1 is manufactured, the first concave portion 107 and the second concave portion 108 are formed in a natural state.
- Cartridge chip 1 can also be a soft chip, excellent
- the material selected is an FPC material having a flexible feature that is easily bent and deformed, and the chip cartridge 11 is used to support and press the ink cartridge chip 1 out of the first recess 107 and the second recess 108.
- the specific formation manner of the first concave portion 107 and the second concave portion 108 provided on the ink cartridge chip 1 is not limited in this embodiment, and those skilled in the art can According to a specific design requirement, for example, the ink cartridge chip 1 can be disposed to form the first concave portion 107 and the second concave portion 108 after leaving the factory. At this time, it can be considered that the ink cartridge chip 1 forms the first concave portion 107 in a natural state. And the second recess 108, as shown in FIGS.
- the ink cartridge chip 1 may be disposed to form a first recess 107 and a second recess 108 after manual operation, for example, the ink cartridge chip 1 is a soft chip.
- the first concave portion 107 and the second concave portion 108 are formed by manually folding the flexible chip.
- the soft board chip may be provided with The folding line 15 is disposed between the first surface 109 and the second surface 1010. Specifically, as shown in FIG.
- the designer can fold the flexible chip according to the position of the folding line 15.
- the plurality of first recesses 107 and the second recesses 108 may be further folded on the flexible chip; or the ink cartridge chip 1 may be disposed after being shipped from the factory.
- the first recess 107 and the second recess 108 are formed by the pressure and shaping of the specific device.
- the ink cartridge chip 1 is a soft board chip, and the soft board chip is mounted on the chip holder 11, and the soft board chip is supported by the chip holder 11 and
- the first recess 107 and the second recess 108 are fixedly formed, as shown in particular in FIGS. 34-36.
- the specific structure of the chip carrier 11 is not limited, and those skilled in the art can set according to specific design requirements.
- the chip carrier 11 can be disposed in an integrated structure or a split structure, and the chip frame of the split structure can be disposed.
- the chip carrier 11 can be disposed to include an upper bracket 1101 and a lower bracket 1102 movably coupled to the upper bracket 1101 , wherein the upper bracket 1101 and the lower bracket 1102 can be performed by the rotating shaft 1105 .
- the upper bracket 1101 can be rotated by the rotating shaft 1105; of course, the chip holder 11 of other structures can be used by those skilled in the art as long as the ink cartridge chip 1 can form the plurality of first recesses 107 and the plurality of second recesses. 108; in addition, the first recess 107 and the second recess 108 are formed on the chip by the chip carrier 11, which effectively expands the manufacturing method of the ink cartridge chip 1, and further reduces the ink cartridge chip 1 The difficulty in production and manufacturing has improved the practicality of the ink cartridge chip 1, which is beneficial to the promotion and application of the market.
- the ink cartridge chip 1 of the present embodiment includes a first surface 109 and a second surface 1010, and the first surface 109 and the second surface 1010 are disposed in parallel. Moreover, the surface areas of the first surface 109 and the second surface 1010 can be set to be the largest, so that the electrical components disposed on the ink cartridge chip 1 can be disposed on the first surface 109 or the second surface 1010. Specifically, the ink cartridge can be disposed.
- the chip 1 is further arranged to include a memory 5 disposed on the ink cartridge chip 1, the memory 5 being connected to at least one contact portion 13 provided in the first recess 107 and/or the second recess 108, so that the memory 5 can store the ink cartridge chip
- the memory 5 can be disposed on the first surface 109 or the second surface 1010,
- other electrical components shown in the figures may be disposed on the first surface 109 or the second surface 1010, and the above electrical components may be used to complete the cartridge core.
- Corresponding functions of the sheet 1 for example, mounting detection, etc.; since the surface areas of the first surface 109 and the second surface 1010 are large, not only the arrangement of the memory 5 and other electrical components can be facilitated, but also the memory 5 can be effectively reduced. The interference between the electrical components effectively ensures the stable reliability of the use of the ink cartridge chip 1.
- the printer is provided with a mounting portion 400 for mounting an ink cartridge.
- the mounting portion 400 includes an ink supply portion 410, a stylus 420, a print head 430, and an opening 440.
- the ink supply portion 410 is located on the bottom wall 400a of the mounting portion 400, the ink supply portion 410 is connected to the print head 430, and the stylus 420 is located on the side wall 400b of the mounting portion 400; in addition, the ink cartridge is mounted along the preset mounting direction to In the mounting portion 400, the ink cartridge has an ink outlet, a chip, and a casing.
- the ink outlet is engaged with the ink supply portion 410, and the chip is engaged with the stylus 420;
- the chip is disposed on the sidewall of the ink cartridge, and the terminal on the chip is exposed on the outer surface of the ink cartridge, the contact pin 420 is disposed on the sidewall of the mounting portion 400, and the terminal is located on the sidewall of the ink cartridge.
- the terminal exposed on the outer surface during the installation may be damaged by the scratch of the mounting portion 400, and the ink cartridge is mounted to the mounting portion 400 in an inclined posture, especially in the case where the ink cartridge is installed in the reverse direction (ie, the rear side wall)
- the chip, particularly the terminal easily hits the rear side wall of the side wall 400b of the mounting portion 400, which may cause contact between the terminal and the contact pin 420 due to damage of the terminal.
- the embodiment provides another ink cartridge 8,
- the ink cartridge 8 is detachably mounted on the accommodating structure 400, and the ink cartridge chip 1 in the above embodiment may be disposed on the ink cartridge 8.
- the structural features of the ink cartridge chip 1 and the corresponding functional functions can be referred to the above statement, and details are not described herein again.
- the accommodating structure 400 may include: a bottom surface 400a provided with the ink supply portion 41, a side surface 400b perpendicular to the bottom surface 400a, and a side surface 400b provided with a contact pin 420;
- the ink cartridge 8 includes an ink outlet port 18 for coupling with the ink supply portion 410, and an outer contact portion 3 electrically connected to the contact pin 420.
- the outer contact portion 3 is provided with a groove end surface 202 for contacting the contact pin 420.
- the groove end face 202 is located in a direction substantially perpendicular to the side face 400b, and has a space S between the ink cartridge chip 1 and the center line of the ink discharge port 18 when viewed in a direction perpendicular to the groove end face 202.
- the specific structure of the ink cartridge 8 is not limited, and those skilled in the art may set according to specific design requirements, for example, the ink cartridge 8 is disposed to include a housing and a housing receiving portion for accommodating the housing.
- the ink outlet port 18 is disposed on the housing, and the ink cartridge chip 1 is disposed on the housing receiving portion.
- the ink cartridge 8 may be further disposed to further include an ink cartridge bottom wall 803 and an ink cartridge sidewall 802 perpendicular to the ink cartridge bottom wall 803.
- the ink discharge port 18 is disposed on the ink cartridge bottom wall 803, the ink cartridge chip 1 is disposed on the ink cartridge side wall 802, and the like, as long as the ink cartridge 8 can achieve the above technical effects, and details are not described herein.
- the specific implementation manner of the embodiment in which the ink cartridge chip 1 is disposed on the accommodating structure 400 is not limited, and those skilled in the art may set according to specific design requirements.
- the receiving structure 400 may be disposed on the receiving structure 400.
- the opening 440 for the cartridge chip 1 to be mounted in the accommodating structure 400 in the mounting direction, and the specific shape of the opening 440 is adapted to the shape of the cartridge chip 1, and the direction in which the cartridge chip 1 is mounted to the accommodating structure 400 is set to the direction P.
- the side surface 400b is parallel to the mounting direction P; when the ink cartridge chip 1 is mounted on the receiving structure 400, the groove end surface 202 on the ink cartridge chip 1 is in contact with the contact pin 420 disposed on the side surface 400b, and for the ink cartridge chip 1
- the specific shape and structure of the groove end surface 202 is not limited, and those skilled in the art can set according to the shape and structure of the stylus 420; further, the ink cartridge chip 1 is close to the ink outlet 18 as viewed in a direction perpendicular to the groove end surface 202.
- the position of one edge is set to L2, and the position of the center line of the ink outlet is set to L1. Referring to FIG. 44, there is a space S between L1 and L2.
- the specific numerical range of the spacing space S is not limited, and those skilled in the art can set according to specific design requirements, as long as Therefore, there is a space S between the ink cartridge chip 1 and the center line of the ink outlet port, which effectively increases the design space of the ink outlet port 18 and the ink cartridge chip 1, and at the same time reduces the manufacturing cost.
- arranging the groove end face 202 to be located substantially perpendicular to the side face 400b means that the groove end face 202 is disposed substantially perpendicular to the side face 400b in a specific production design due to the specific production design.
- the ink cartridge 8 provided in this embodiment effectively overcomes the damage existing in the prior art and easily causes the external contact portion 3 to be damaged by arranging the groove end surface 202 of the ink cartridge chip 1 in a direction substantially perpendicular to the side surface 400b.
- the problem of poor contact with the stylus 420 avoids the occurrence of damage to the outer contact portion 3 and the groove end surface 202 of the ink cartridge chip 1 due to scraping during the installation process, thereby ensuring the normal use effect of the ink cartridge 8;
- By setting the ink cartridge chip 1 and the center line of the ink outlet port to have a certain spacing space S the design space of the ink outlet port 18 and the ink cartridge chip 1 is effectively increased, the manufacturing cost is reduced, and the ink cartridge 8 is further improved.
- the practicality is conducive to the promotion and application of the market.
- the third plane 103 of the ink cartridge chip 1 can also be used.
- the accommodating groove 2 is provided, and when the ink cartridge chip 1 is the flexible ink cartridge chip 1, the accommodating groove 2 may be set before the ink cartridge chip 1 is mounted, or may be formed after the ink cartridge chip 1 is mounted, for example, as shown in FIG.
- the ink cartridge chip 1 is a flexible ink cartridge chip 1 . Before the ink cartridge chip 1 is mounted, the ink cartridge chip 1 is a flat plate structure.
- the ink cartridge chip 1 By folding the ink cartridge chip 1 , the ink cartridge chip 1 can be formed with the receiving groove 2 ; As shown in FIG. 43-44, 47, the chip carrier 11 with the ink cartridge chip 1 needs to be mounted on the accommodating structure 400. Cartridge chip 1 through the chip The frame 11 is mounted on the accommodating structure 400. At this time, there is also a space S between the ink cartridge chip 1 and the center line of the ink outlet port, which effectively increases the design space of the ink outlet port 18 and the ink cartridge chip 1, and also reduces Production and manufacturing costs.
- the plurality of groove end faces 202 are spaced apart from the side 400b perpendicular to the mounting structure 400 and perpendicular to the mounting direction P.
- the specific position of the groove end surface 202 disposed in the first recess portion 107 and the second recess portion 108 is not limited, and can be set according to specific design requirements, and, preferably, it can be
- the groove end surface 202 disposed in the first recess 107 is disposed at a position close to the fourth plane 104 in the first recess 107, and the groove end surface 202 disposed in the second recess 108 is disposed in the second recess 108 near the third plane
- the present embodiment provides an ink cartridge chip 1 of another structure, which includes a soft board portion 1012 and a hard board portion connected to the soft board portion 1012. 1013, the groove end surface 202 is disposed on the soft plate portion 1012; the groove end surface 202 may all be located in the third plane 103.
- the contact pins 420 matching the groove end surface 202 are arranged in a row; the groove end surface 202 may also be The stylus pins 420 matching the groove end faces 202 are arranged on the third plane 103 and the first third plane 1032, respectively, and are arranged in two rows or rows.
- the specific shape and structure of the soft board portion 1012 and the hard board portion 1013 are not limited, and those skilled in the art can set according to specific design requirements. More preferably, the soft board portion 1012 and the hard board portion 1013 are both set to a rectangular structure, and the surface area of the soft plate portion 1012 is larger than the surface area of the hard plate portion 1013, and the groove end surface 202 is disposed on a side of the soft plate portion 1012 that protrudes from the hard plate portion 1013, and the groove end surface 202 and the hard plate portion 1013 is opposite to each other; and a mounting hole passing through the flexible board portion 1012 and the hard plate portion 1013 may be disposed on the ink cartridge chip 1, and the ink cartridge chip 1 may be mounted on the chip holder 11 through the mounting hole, as shown in FIG.
- the chip holder 11 on which the cartridge chip 1 is mounted needs to be mounted on the ink cartridge 8. As shown in FIG. 46, the cartridge chip 1 passes through the mounting hole.
- the connecting member is disposed on the ink cartridge chip 1 , and the chip holder 11 is provided with a connecting rod 1104 .
- the ink cartridge 8 is provided with a connecting rod slot.
- the chip holder 11 is mounted on the ink cartridge 8 through the connecting rod 1104 and the connecting rod groove, thereby realizing Cartridge chip 1 To On the ink cartridge 8, in addition, in order to provide a better supporting effect on the movement of the ink cartridge chip 1, an elastic member 11 is disposed on the lower end of the chip holder 11 on the ink cartridge 8, and the elastic member 11 may be a spring through which the elastic member is provided. 11. At this time, when the chip carrier 11 is mounted on the ink cartridge 8, the elastic member 11 can provide effective support for the activities of the chip carrier 11 and the ink cartridge chip 1, thereby enabling the ink cartridge chip 1 to be quickly and stably mounted on the ink cartridge. On the eighth, the mounting efficiency of the ink cartridge chip 1 is improved, and the practicality of the ink cartridge 8 is further improved.
- Yet another aspect of the embodiment provides an ink jet printer comprising the above-described ink cartridge and a housing structure in which the ink cartridge can be mounted.
- the inkjet printer provided in this embodiment effectively overcomes the problem that the terminal is damaged and the stylus is poorly contacted by the prior art by providing the above-mentioned ink cartridge on the inkjet printer, thereby avoiding the installation.
- damage occurs to the outer contact portion and the groove end surface of the ink cartridge chip due to scraping, thereby ensuring the normal use effect of the ink jet printer; in addition, by setting the ink cartridge chip and the center line of the ink outlet port to have The certain spacing space S effectively increases the design space of the ink outlet and the ink cartridge chip, reduces the manufacturing cost, and further improves the market competitiveness of the inkjet printer, and is beneficial to the promotion and application of the market.
- the ink cartridge chip is usually detachably mounted on the outer wall of the housing, and after the ink cartridge chip is mounted on the housing, the ink cartridge chip is fixed relative to the housing.
- the ink cartridge chip has terminals, and the stylus holder has styluses arranged in two rows.
- the ink cartridge can be installed into the mounting portion along the preset mounting direction P.
- the terminal on the ink cartridge chip presses the contact pin, so that the stylus is deformed toward the inside of the stylus frame, and when the terminal passes over the stylus, the contact The needle returns to deformation and the terminal contacts the middle of the stylus.
- the ink cartridge is moved in a direction opposite to the mounting direction (ie, the ink cartridge and the mounting) During the phase separation process, the ink cartridge moves in the -P direction, and the component force applied to the stylus upward by the ink cartridge chip easily causes the stylus to be broken or deformed, thereby causing the removal operation of the ink cartridge to be difficult, which causes inconvenience to the user.
- the present embodiment provides another ink cartridge that is mounted in a housing having a plurality of sets of contact pins 420.
- the structure 400, the housing structure 400 is disposed in an image forming apparatus such as a printer.
- the mounting portion bottom wall 400a is provided with an ink supply portion 410 to which the ink supply portion 410 is connected, and the mounting portion side.
- the wall 400b is provided with a plurality of sets of contact pins 420 for combining with the ink cartridge chip 200 of the ink cartridge.
- the receiving structure 400 is further provided with an opening 440 for mounting the ink cartridge.
- P indicates the mounting direction of the ink cartridge
- Q indicates a direction perpendicular to the mounting direction P of the ink cartridge and toward the inside of the ink cartridge
- T indicates a direction perpendicular to the mounting direction P and the direction Q of the ink cartridge.
- each stylus 420 has a ridge-shaped protrusion 420a
- the stylus 420 has a certain elasticity, that is, the ridge-shaped protrusion 420a can be rotated with the uppermost end of the whole stylus 420 as a fulcrum, that is, the ridge-shaped protrusion 420a It has the ability to elastically deform inward.
- the plurality of stylus 420 are formed in upper and lower rows along the mounting direction: a first set of stylus 421 and a second set of stylus 422; when the ink cartridge is mounted to the accommodating structure 400, the ink cartridge chip 200 is located at the first set of stylus 421 and The second set of styli 422 is in contact with the first set of stylus 421 and the second set of stylus 422.
- the ink cartridge may have a housing 100 having a side portion and a side portion, a side portion of the ink cartridge being a side portion of the housing 100 of the ink cartridge, and an inner portion of the ink cartridge being an inner space surrounded by the housing 100.
- the ink supply port 121 is disposed on the housing 100, and the ink outlet port 121 is configured to cooperate with the ink supply portion 410 of the accommodating structure 400.
- the position of the ink outlet port 121 is not specifically limited in this embodiment, and those skilled in the art may The setting may be performed according to actual needs as long as it can be engaged with the ink supply portion 410 of the housing structure 400.
- the ink outlet port 121 may be disposed at the bottom of the housing 100 (ie, the ink cartridge bottom surface 100c).
- An interior of the housing 100 is provided with an ink storage chamber for storing ink.
- the ink cartridge chip 200 is mounted on the side of the housing 100.
- the ink cartridge chip 200 is movable toward the inside of the ink cartridge relative to the housing 100 to be away from the contact pin 420.
- the housing 100 is provided with a receiving portion 130 for accommodating the ink cartridge chip 200.
- the 130 is for accommodating the ink cartridge chip 200 when the ink cartridge chip 200 is moved relative to the housing 100.
- the housing 100 has a first opposite surface 100a and a second opposite surface 100b parallel to the mounting direction P of the ink cartridge mounted to the receiving structure 400, and the movement in this embodiment means that the ink cartridge chip 200 is on the first opposite surface 100a and / or a distance displacement is generated on the second opposing face 100b.
- the first opposing surface 100a and the second opposing surface 100b on the housing 100 serve as supporting surfaces for supporting the ink cartridge chip 200.
- the movement in this embodiment means that the ink cartridge chip 200 is displaced in the aforementioned supporting surface.
- the terminal When the ink cartridge is mounted on the accommodating structure 400, the terminal is in contact with the stylus 420, and in a direction T perpendicular to the mounting direction P of the ink cartridge mounted to the accommodating structure 400, the upper terminal and the lower terminal are disposed to cross each other, and the upper contact portion 221a and The lower contact portions 211a are disposed to intersect each other; the first concave portion 211 and the second concave portion 221 are disposed to intersect each other.
- the terminal At least a portion is inserted between the first group of styluses 421 and the second group of styluses 422.
- the cartridge chip 200 (for example, the upper contact portion 221a and the lower contact portion 211a) is inserted in the rear end side of the direction Q. Between the first set of stylus 421 and the second set of stylus 422.
- the connecting portion 200a may be fixedly disposed on both sides of the ink cartridge chip 200.
- the housing 100 is provided with a fitting portion 100d for mounting and supporting the connecting portion 200a, and the connecting portion 200a is movable in the fitting portion 100d.
- the connecting portion 200a may be a bump
- the engaging portion 100d may be a guiding groove
- the bump is installed in the guiding groove
- the protruding block can move in the guiding groove
- the extending direction of the guiding groove can be inclined with respect to the installation direction of the ink cartridge.
- the connecting portion 200a may be fixed to the ink cartridge chip 200 by soldering or snapping, or may be integrally formed with a part of the ink cartridge chip 200 and the ink cartridge chip 200.
- connection unit may be connected to the drive unit, and the drive unit is connected to the control unit.
- the control unit After receiving the command to take out the ink cartridge, the control unit sends a control command to the drive unit, and the drive unit drives the connection unit according to the control command.
- the ink cartridge moves inside, that is, drives the cartridge chip 200 to move toward the inside of the cartridge, thereby being away from the stylus 420 on the receiving structure 400.
- the control part may be a controller, and the driving part may be a motor.
- the output end of the motor may be provided with a worm or the like for converting the rotational motion into a linear motion, so as to drive the connecting portion to move in the mating portion. Further, it is also possible to move the connecting portion in the fitting portion by the urging force applied to the ink cartridge chip 200 by the accommodating structure 400.
- the ink cartridge provided in this embodiment is movable toward the inside of the ink cartridge by the ink cartridge chip 200 relative to the housing 100 when the ink cartridge is taken out from the accommodating structure 400 in a direction opposite to the mounting direction, and the ink cartridge chip 200 can be away from the stylus on the receiving structure 400.
- 420 and is housed in the receiving portion 130 of the housing 100, so that the stylus 420 can be effectively prevented from being damaged, and the ink cartridge can be smoothly taken out from the accommodating structure 400.
- the ink cartridge chip 200 is also rotatable relative to the housing 100.
- the connecting portion on both sides of the ink cartridge chip 200 may be a rotating shaft
- the engaging portion on the housing 100 may be a long hole
- the rotating shaft rotates in the long hole with its own axis as a center of rotation, and the rotating shaft can be along the hole wall of the long hole. mobile.
- the connecting portion can be moved and rotated in the fitting portion by the urging force applied to the ink cartridge chip 200 by the accommodating structure 400. Specifically, when the ink cartridge is taken out from the accommodating structure 400 in a direction opposite to the mounting direction P, the relative position of the ink cartridge to the accommodating structure 400 changes.
- the stylus 420 does not have the ability to rotate in the -P or Q direction
- the second group of contacts The needle 422 applies a force to the cartridge chip 200, and the force of the force in the extending direction of the mating portion causes the connecting portion of the cartridge chip 200 to rotate and move in the mating portion, and the cartridge chip 200 faces the end of the receiving structure 400.
- the accommodating portion 130 is entered, thereby preventing the stylus 420 from being rotationally deformed toward the direction Q.
- the ink cartridge chip 200 When the ink cartridge is moved until the ink cartridge chip 200 has traversed the ridge-shaped projection 420a of the second group of contact pins 422, the ink cartridge chip 200 is no longer subjected to the force of its rotation, and the ink cartridge chip 200 is no longer rotated.
- a resetting device may be disposed on the housing 100 to push the ink cartridge chip 200 back to the original position after the ink cartridge chip 200 has passed the ridge-shaped projection 420a of the second group of styluses 422.
- the reset device is not specifically limited, and those skilled in the art can perform the setting according to actual needs, as long as the function of pushing the reset of the ink cartridge chip 200 can be realized.
- the ink cartridge chip 200 is displaced in a mounting direction perpendicular to the mounting direction of the ink cartridge to the mounting portion, and toward the inside of the ink cartridge.
- the ink cartridge chip 200 is mounted on the chip holder 300, the chip holder 300 is mounted on the side of the housing 100, and the chip holder 300 is capable of being opposite to the housing 100.
- the housing 130 is also used to accommodate the chip carrier 300.
- the connecting rod 311 is disposed on both sides of the chip holder 300, and the connecting rod 311 is formed in a shaft shape.
- the housing 100 is provided with a mounting slot 122.
- the connecting rod 311 is inserted into the mounting slot 122, and the mounting slot is used for supporting the connection.
- the groove wall of the rod has a projection distance in a direction perpendicular to the mounting direction of the ink cartridge and toward the inside of the ink cartridge; wherein the specific value of the projection distance is not limited in this embodiment, and those skilled in the art can set according to actual needs.
- the projection distance needs to be larger than the projection distance of the connecting rod 311 in the same direction to enable the connecting rod 311 to move toward the inside of the ink cartridge. It can be understood that the portion of the ink cartridge chip 200 provided with the contact portion is exposed outside the chip holder 300 to facilitate bonding with the stylus 420.
- the first projected area of the mounting groove 122 in the axial direction of the vertical connecting rod 311 is larger than the second projected area of the connecting rod 311 in the axial direction of the vertical connecting rod 311, so that the connecting rod 311 has the mounting groove 122.
- An activity space that can move smoothly.
- the ink cartridge chip 200 can be coupled to the stylus 420.
- the chip holder 300 is provided with an abutting portion 312, and the elastic member 500 is interposed between the abutting portion 312 and the casing 100.
- the abutting portion 312 may include a package body, and the plate-shaped body may be disposed perpendicular to the chip holder 300.
- the plate-shaped body extends toward the housing 100 with a protrusion for connecting with the elastic member 500.
- the elastic member 500 may be
- the spring may also be other structures made of an elastic material; for example, the elastic member 500 is a spring: one end of the spring may be fixedly connected to the housing 100, and the other end of the spring may be sleeved in the protruding post or inserted in the protruding post. In the center of the hole.
- the abutting portion 312 can be disposed at the bottom end of the chip holder 300 and extends a predetermined length perpendicular to the chip holder 300.
- the elastic member 500 can be disposed in the receiving portion 130 to make the structure of the ink cartridge more compact.
- the chip carrier 300 and the ink cartridge chip 200 form a joint body, and during the separation of the ink cartridge from the accommodating structure 400, the joint body rotates and is displaced in a direction perpendicular to the mounting direction in which the ink cartridge is mounted to the mounting portion and toward the inside of the ink cartridge.
- the elastic member 500 abuts the ink cartridge chip 200 between the first set of the stylus 421 and the second set of the stylus 422 by the abutting portion 312 of the abutting chip holder 300, It is ensured that the ink cartridge chip 200 is in good contact with the stylus 420 on the receiving structure 400.
- the connecting rod is rotatable in the mounting groove and moves in the extending direction of the groove wall of the mounting groove.
- the movement of the chip holder 300 relative to the housing 100 while rotating relative to the housing 100 can effectively reduce the occupied space of the housing portion 130, help to increase the ink storage chamber in the housing 100, and increase the amount of ink stored in the ink cartridge. .
- the chip carrier 300 includes: a first chip carrier 310 and a second chip carrier 320 detachably connected to the first chip carrier 310.
- the ink cartridge chip 200 is mounted on the first chip carrier 310. And in the space portion 330 between the second chip rack 320. The shape of the space portion 330 matches the shape of the ink cartridge chip 200.
- first chip carrier 310 and the second chip carrier 320 are fixedly connected, and the first chip carrier 310 and the second chip carrier 320 can be rotated around the connection; of course, the first chip carrier 310 and the second chip carrier 320 It can also be set separately, and those skilled in the art can set according to actual needs.
- the detachable connection of the first chip carrier 310 and the second chip carrier 320 can be implemented by a buckle, a card hole or a bolt connection, etc., and can be set according to actual needs, as long as the first chip carrier 310 and the first chip can be connected.
- the detachable connection of the two chip holders 320 is sufficient.
- the first chip carrier 310 is detachably connected to the second chip carrier 320.
- the first chip carrier 310 and the second chip carrier 320 can be engaged; the ink cartridge chip 200 can be It is a flexible chip.
- the preferred material is FPC material.
- the material has flexible features and is easy to bend and deform. Therefore, the first chip carrier 310 and the second chip carrier 320 can be used to press the ink cartridge chip 200 out of the first concave portion 211 and the first Two recesses 221
- the first chip holder 310 may be located below the second chip holder 320.
- the abutting portion 312 may be disposed at the bottom end of the first chip holder 310, and the connecting rod 311 may be disposed.
- the connecting rod 311 On both sides of the second chip holder 320, that is, the connecting rod 311 is located between the ink cartridge chip 200 and the elastic member 500, the compact structure of the ink cartridge is advantageous for increasing the amount of ink stored in the ink cartridge.
- the lower surface of the first chip holder 310 facing the outer side of the ink cartridge is a slope 310a to guide the movement of the chip holder 300 during the process of mounting the ink cartridge.
- the thickness of the first chip holder 310 is gradually increased from the one end of the first chip holder 310 toward the outside of the ink cartridge toward the inside of the ink cartridge, and the inclined surface 310a is formed on the lower surface of the first chip holder 310 toward the outer side of the ink cartridge 310.
- the second group of styles 422 may be guided to move away from the cartridge chip 200 or The engaging body formed by the lead chip carrier 300 and the ink cartridge chip 200 is moved away from the second group of styluses 422, so that the inclined surface 310a serves as a guide during the ink cartridge mounting process.
- the first chip carrier 310 may include a first bracket body 310b and a first rib 310c.
- the first rib 310c is disposed at an end of the first bracket body 310b toward the outside of the ink cartridge.
- the second chip rack 320 may include the first The second bracket body 320a and the second rib 320b are disposed at one end of the second bracket body 320a toward the outside of the ink cartridge.
- a space between the adjacent two first ribs 310c is used to expose the contact portion of the ink cartridge chip 200
- a space between the adjacent two second ribs 320b is also used to expose the contact portion of the ink cartridge chip 200.
- the first rib 310c on the first chip carrier 310 and/or the second rib 320b on the second chip carrier 320 may also be eliminated; or the first rib 310c on the first chip carrier 310 may be reduced and/or The number of second ribs 320b on the second chip carrier 320 to simplify the addition of 300 chip holders Craftsmanship.
- the second chip holder 320 includes only the second holder body 320a; as shown in FIG. 51c, while reducing the second rib 320b on the second chip holder 320, the second holder body 320a is added.
- the length of the cartridge chip 200 is firm and reliable; as shown in FIG. 51d, the first chip carrier 310 includes only the first bracket body 310b.
- the length of the first bracket body 310b can also be increased accordingly;
- the first chip carrier 310 can include a first bracket body 310b and a first rib 310c; as shown in FIG. 51f, the second chip rack 320 includes only the second bracket body 320a, and the first chip rack 310 includes only the first A bracket body 310b, at this time, the length of the first bracket body 310b and/or the second bracket body 320a can be increased accordingly.
- the two sides of the first chip holder 310 are respectively provided with a fixing portion 314.
- the two sides of the second chip holder 320 are respectively provided with a claw 322, and the claw 322 is used for engaging with the fixing portion 314, thereby the ink cartridge chip.
- the 200 is fixedly sandwiched between the first chip carrier 310 and the second chip carrier 320.
- the clamping structure of the embodiment is relatively simple, the processing technology is simple, and the operation is convenient.
- the displacement of the ink cartridge chip 200 relative to the chip carrier 300 is avoided.
- the first chip carrier 310 is provided with a fixing post 313, and the first positioning of the ink cartridge chip 200 is opened.
- a second positioning hole 321 is defined in the second chip holder 320. The first positioning hole 230 and the second positioning hole 321 are used for the fixing post 313 to pass through.
- the number of the fixed columns 313 may be one or more. The number of the fixed columns 313 is not specifically limited in this embodiment, and those skilled in the art may set according to actual needs.
- the ink cartridge chip 200 is prevented from rotating relative to the chip carrier 300.
- the two sides of the ink cartridge chip 200 are respectively provided with positioning grooves 240, and the first chip carrier 310 is provided with a concave surface.
- the groove cooperates with the positioning protrusion 315.
- One or more positioning grooves 240 may be respectively disposed on the two sides of the ink cartridge chip 200.
- the number of the positioning grooves 240 is not specifically limited in this embodiment, and those skilled in the art may set according to actual needs.
- the accommodating portion 130 includes a first accommodating portion 131 and a second accommodating portion 132.
- the second accommodating portion 132 is disposed above the first accommodating portion 131.
- the first accommodating portion 131 is configured to receive the chip holder 300 and the ink cartridge chip 200.
- the joint body faces the front end side of the ink cartridge, and the second housing portion 132 is for accommodating the joint body formed by the chip holder 300 and the ink cartridge chip 200 toward the rear end side in the ink cartridge.
- the mounting groove 122 may be disposed between the first receiving portion 131 and the second receiving portion 132; the first receiving portion 131 and the second receiving portion 132 may be disposed in communication.
- a restriction portion 140 is further disposed above the accommodating portion 130, and the second accommodating portion 132 is disposed Inside the restricting portion 140, the restricting portion 140 is used for upward movement of the rear end side of the joined body formed by the chip holder 300 and the ink cartridge chip 200. It should be noted that the limiting portion 140 is mainly used to limit the upward movement of the chip carrier 300 when the chip carrier 300 is at the top end of the mounting slot 122, thereby avoiding damage to the chip carrier 300 and its surrounding components.
- the housing 100 includes a first housing 110 and a second housing 120 connected to the first housing 110.
- the chip holder 300 is rotatably mounted on the second housing 120.
- the first housing 110 and the second housing 120 may be snapped or interference fit; or the first housing 110 and the second housing 120 may be integrally formed.
- the restricting portion 140 and the mounting groove 122 are also provided on the second housing 120.
- the length direction of the mounting slot 122 has a preset angle with the direction in which the ink cartridge is mounted to the receiving structure 400.
- the specific value of the preset angle is not specifically limited in this embodiment, and those skilled in the art may Actually need to be set.
- the bottom end of the mounting groove 122 extends away from the receiving structure 400 and extends toward the inside of the ink cartridge to reduce the space occupied by the receiving portion 130.
- the chip carrier 300 may be located at the top end of the mounting slot 122 when the ink cartridge is not mounted to the receiving structure 400.
- the ink cartridge chip 200 is in contact with the second group of contact pins 422, and the ink cartridge chip 200 and the first
- the ridge-shaped protrusions 420a of the two sets of contact pins 422 are in contact with each other, and the force applied by the ink cartridge chip 200 is transmitted to the chip holder 300.
- the connecting rod 311 of the chip holder 300 moves along the groove wall of the mounting groove 122, and the ink cartridge is moved.
- the chip 200 also moves; the second set of stylus 422 rotates with the uppermost end of the entire stylus 420 as a fulcrum (-Q direction rotation), and the cartridge chip 200 traverses the ridge-shaped protrusion 420a of the second set of stylus 422 Thereafter, when the first set of contact pins 421 and the second set of contact pins 422 are reached, the second set of contact pins 422 are restored to the original position, and the ink cartridge chip 200 is simultaneously associated with the first set of contact pins 421 and the second set of contact pins 422 In contact, the connecting rod 311 can be slid to an intermediate position or other position of the mounting groove 122, at which time the ink cartridge chip 200 is subjected to a force F1 in the direction Q given by the receiving structure 400.
- the stylus 420 does not have the ability to rotate in the Q direction.
- the ink cartridge When the ink cartridge When the chip 200 is to be separated from the first set of stylus 421 and the second set of stylus 422, the second set of stylus 422 will give the ink cartridge chip 200 a downward force F2; The force F2 received by the cassette chip 200 is transmitted to the chip holder 300. The chip holder 300 is rotated and moved by the connecting rod 311 under the action of the F2 force, and the terminals on the ink cartridge chip 200 are moved in the direction P.
- the chip holder 300 and the ink cartridge chip The 200 enters the accommodating portion 130 to avoid damage to the stylus 420 of the accommodating structure 400; wherein, if the second stylus 422 gives the force F2 of the ink cartridge chip 200 to the value of the directional force in the extending direction of the mounting groove 122 ( The direction in which the mounting groove 122 extends, that is, the moving direction of the ink cartridge chip 200 relative to the housing 100) is greater than the value of the angular force of the elastic member 500 in the direction, and the chip holder 300 moves toward the top end of the mounting groove 122; The value of the directing force of the force F2 of the two sets of contact pins 422 given to the ink cartridge chip 200 along the extending direction of the mounting groove 122 is smaller than the value of the directing force of the elastic element 500 in the direction, the chip holder 300 faces the mounting groove. The bottom end of 122 moves.
- the housing 100 has a first opposing surface 100a and a second opposing surface 100b that are parallel to the mounting direction P of the ink cartridge mounted to the receiving structure 400.
- the movement in this embodiment means that the engaging body formed by the ink cartridge chip 200 and the chip carrier 300 is A distance displacement occurs on the first opposing face 100a and/or the second opposing face 100b.
- the first opposing surface 100a and the second opposing surface 100b on the housing 100 serve as supporting surfaces for supporting the ink cartridge chip 200.
- the movement in this embodiment means that the engaging body generates a distance displacement on the aforementioned supporting surface.
- the first opposing surface 100a and the second opposing surface 100b are provided with mounting grooves 122 for mounting the connecting rods 311.
- the ink cartridge continues to move until the ink cartridge chip 200 passes over the ridge-shaped protrusion 420a of the second group of styli 422, the chip holder 300 is not subjected to the force to rotate it, and the chip holder 300 is not rotating; If the stylus 420 still gives the cartridge chip 200 a force in the direction Q, the connecting rod 311 of the chip holder 300 still cannot be restored to the top end of the mounting slot 122; until the receiving structure 400 does not act to give the cartridge chip force, the cartridge chip 200 And the chip carrier 300 is restored to the original position by the action of the elastic member 500.
- the present embodiment is different from the above embodiment in that the structure of the mounting groove 122 is different.
- the ink cartridge used in this embodiment is the same as that of the first embodiment except for the special description.
- the groove wall of the mounting groove 122 for moving the connecting rod 311 is perpendicular to the mounting direction P of the ink cartridge; wherein the mounting passage 123 communicates with the front end side of the mounting groove 122.
- the chip carrier 300 may be located at a rear end side of the mounting groove 122 toward the receiving structure 400.
- the restricting portion 140 is for restricting the core when the chip holder 300 is located at the rear end side of the mounting groove 122
- the carriage 300 moves upwards to ensure smooth access of the ink cartridge.
- the housing 100 is further provided with a mounting passage 123, and the mounting passage 123 may be disposed on the second housing 120; one end of the mounting passage 123 communicates with the mounting slot 122, and is installed.
- the other end of the passage 123 has an opening that communicates with a space outside the casing.
- the mounting passage 123 communicates with the bottom end of the mounting groove 122; or the mounting passage 123 communicates with the front end side of the mounting groove 122.
- Step 1 the ink cartridge chip 200 is mounted between the first chip carrier 310 and the second chip carrier 320, and the first chip carrier 310 and the second chip carrier 320 are engaged;
- Step 2 The elastic member 500 is mounted on the housing 100; wherein the steps 1 and 2 are performed in no particular order;
- Step 3 along the mounting channel 123, the connecting rod 311 of the first chip carrier 310 is mounted to the mounting groove 122 of the connecting rod 311 which is movable along the groove wall and can be rotated by the connecting rod 311, and the elastic member 500 is The abutting portion 312 on the first chip carrier 310 abuts.
- FIGS. 57-59b in which -P in the drawing indicates a direction opposite to the mounting direction P of the ink cartridge.
- the ink cartridge chip 200 also moves; the second group of stylus 422 rotates with the uppermost end of the entire stylus 420 as a fulcrum (rotation in the -Q direction), and the ridge ridge of the second stylus 422 of the cartridge chip 200 is crossed.
- the stylus 420 does not have the ability to rotate in the Q direction.
- the ink cartridge When the ink cartridge When the chip 200 is to be separated from the first set of contact pins 421 and the second set of contact pins 422, as shown in FIGS. 58a-58b, the second set of contact pins 422 will be given to the ink cartridge chip 200.
- the downward force F2; the force F2 received by the ink cartridge chip 200 is transmitted to the chip holder 300, and the chip holder 300 is rotated and moved by the connecting rod 311 under the action of the F2 force, and the terminal on the ink cartridge chip 200 moves in the direction P.
- the chip holder 300 and the ink cartridge chip 200 enter the accommodating portion 130, thereby avoiding damage to the stylus 420 of the accommodating structure 400; wherein, if the force F2 direction Q, the value of the directional force is greater than the elastic force of the elastic member 500 in the direction When the value of the force is divided, the chip holder 300 moves toward the front end side of the mounting groove 122; if the value of the directing force in the direction F2 of the force F2 is smaller than the value of the directing force of the elastic member 500 in the direction, the chip holder 300 Slides toward the rear end side of the mounting groove 122.
- the ink cartridge continues to move until the ink cartridge chip 200 passes over the ridge-shaped protrusion 420a of the second group of styli 422, the chip holder 300 is not subjected to the force to rotate it, and the chip holder 300 is not rotating; If the stylus 420 still gives the force of the cartridge chip 200 in the direction Q, the connecting rod 311 of the chip holder 300 still cannot be restored to the rear end side of the mounting groove 122 until the receiving structure 400 does not act to give the cartridge chip force, the cartridge chip The 200 and chip carrier 300 are restored to their original positions.
- the ink cartridge has a housing 100, an ink cartridge chip 200, a chip carrier 300, and the like.
- the joint body formed by the ink cartridge chip 200 and the chip holder 300 is inclined with respect to the ink cartridge bottom surface 100c.
- the stylus in the mounting portion is also tilted.
- the joint body formed by the ink cartridge chip 200 and the chip holder 300 is mounted in the housing 100 in the direction Q, which can be similar to the foregoing embodiment.
- the first card position 101 is first mounted on the mounting portion, and then the ink cartridge chip 200 is rotated.
- the side portion finally causes the second card position 102 to be mounted to the mounting portion.
- the ink cartridge chip 200 is in contact with the stylus on the mounting portion, and the ink cartridge chip and the stylus are in a strong interaction with each other, and the ink cartridge chip 200 will be subjected to the action.
- the force is transmitted to the chip holder 300, and the connecting rod 311 of the chip holder 300 moves and rotates along the groove wall of the mounting groove 122, and the ink cartridge chip 200 also moves; after the ink cartridge chip 200 passes the stylus 4, the two groups reach the mounting portion.
- the connecting rod 311 can be slid to the intermediate position of the mounting groove 122 or other position.
Landscapes
- Ink Jet (AREA)
Abstract
一种墨盒芯片以及设置有该芯片的墨盒及喷墨打印机,其中,墨盒芯片(1)用于与喷墨打印机安装部内的多个触针(7)电连接,所述墨盒芯片上设置有容纳槽(2),所述容纳槽内设置有至少两个用于与所述触针相接触的内接触部(201);通过在墨盒芯片上设置有可容纳触针的容纳槽,避免了在墨盒芯片安装过程中,若芯片发生偏移时,触针可能无法滑入凹槽内,容易引起芯片接触不良,触针损坏和弯折的情况,保证了墨盒芯片与触针的稳定、有效接触,进而提高了墨盒芯片使用的稳定可靠性。
Description
相关申请交叉引用
本申请要求于2016年8月12日提交中国专利局、申请号为201610664615.3、发明名称为"墨盒及喷墨打印机"、以及2016年8月12日提交中国专利局、申请号为201610662489.8、发明名称为"墨盒芯片及墨盒"、以及2016年8月12日提交中国专利局、申请号为201610662790.9、发明名称为"墨盒芯片及墨盒"、以及2016年11月16日提交中国专利局、申请号为201611008544.8、发明名称为"墨盒"的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
本发明涉及喷墨打印技术领域,尤其涉及一种墨盒芯片、墨盒及喷墨打印机。
打印机用芯片有很多种,打印机用芯片用于存储生产厂信息、墨水量信息、墨盒类别信息、墨水颜色等信息,喷墨打印机用芯片对于喷墨打印机的正常工作起到决定性作用。
其中,第201020599870.2号的中国专利公开了一种墨盒芯片及墨盒,参考附图1-2可知,在现有技术中,芯片20具有多个凹槽22,每个凹槽22内具有导电件25。
然而,在实施本技术方案的过程中,现有技术中存在以下缺陷:由于随着打印机及墨盒的小型化,芯片也越来越小型化,其每个端子之间的间距也越来越小,触针7的厚度也越来越薄,且为了更好的达到导电件25与触针的接触作用,凹槽22及敞口端23也越来越小,导致芯片加工难度大(加工小且深的槽),安装精度要求高,在安装过程中,如果芯片发生偏移,触针可能会无法滑入凹槽22内,会容易引起芯片接触不良,触针损坏(弯折)的情
况。
发明内容
本发明提供了一种墨盒芯片、墨盒及喷墨打印机,用于解决现有技术中存在的容易引起芯片接触不良、触针损坏的问题。
本发明的第一方面是为了提供一种墨盒芯片,所述墨盒芯片用于与安装部内的触针电连接,所述墨盒芯片上设置有容纳槽,所述容纳槽内设置有用于与所述触针相接触的接触部。
本发明的第二方面是为了提供一种可拆卸的安装于安装部上的墨盒,包括:上述的墨盒芯片,所述墨盒芯片用于与所述安装部的触针相接合。
本发明的第三方面是为了提供一种可安装于安装部上的墨盒,包括:上述的墨盒芯片。
本发明的第四方面是为了提供一种喷墨打印机,包括:上述的墨盒。
本发明提供的墨盒芯片、墨盒及喷墨打印机,通过在墨盒芯片上设置有可容纳触针的容纳槽,并且所述容纳槽内设置有至少两个用于与所述触针相接触的内接触部,进而避免了在墨盒芯片安装过程中,若芯片发生偏移,触针可能会无法滑入凹槽内,会容易引起芯片接触不良,触针损坏(弯折)的情况,保证了墨盒芯片与触针的稳定、有效接触,进而提高了墨盒芯片使用的稳定可靠性,有利于市场的推广与应用。
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1为现有技术中的芯片的结构示意图一;
图2为现有技术中的芯片与端子架配合的示意图;
图3为本发明实施例一的芯片的结构示意图一;
图4为本发明实施例一的芯片的结构示意图二;
图5为本发明实施例二的芯片的结构示意图一;
图6为本发明实施例二的芯片的结构示意图二;
图7为本发明实施例三的芯片的结构示意图;
图8为本发明实施例一的芯片与触针相接触的结构示意图一;
图9为本发明实施例一的芯片与触针相接触的结构示意图二;
图10为本发明实施例二的芯片与触针相接触的结构示意图一;
图11为本发明实施例二的芯片与触针相接触的结构示意图二;
图12为本发明实施例三的芯片与触针相接触的结构示意图;
图13为本发明实施例四的芯片的结构示意图一;
图14为本发明实施例四的芯片的结构示意图二;
图15为本发明实施例四的芯片的结构示意图三;
图16为本发明实施例四的芯片与芯片架的连接示意图一;
图17为本发明实施例四的芯片与芯片架的连接示意图二;
图18为本发明实施例四的芯片与触针相接触的结构示意图;
图19为本发明实施例一的墨盒与芯片的安装结构示意图一;
图20为本发明实施例一的墨盒与芯片的安装结构示意图二;
图21为本发明实施例二的墨盒与芯片的安装结构示意图一;
图22为本发明实施例二的墨盒与芯片的安装结构示意图二。
图23为本发明实施例五的墨盒芯片的结构示意图一;
图24为本发明实施例五的墨盒芯片的结构示意图二;
图25为本发明实施例五的墨盒芯片的结构示意图三;
图26为本发明实施例六的墨盒芯片的结构示意图一;
图27为本发明实施例六的墨盒芯片的结构示意图二;
图28为本发明实施例六的墨盒芯片的结构示意图三;
图29为本发明实施例一的芯片架的分体结构示意图;
图30为本发明实施例二的芯片架的结构示意图一;
图31为本发明实施例二的芯片架的结构示意图二;
图32为本发明实施例二的芯片架的结构示意图三;
图33为本发明实施例二的经过芯片架的支撑与固定之后的芯片的结构示意图;
图34为本发明实施例二的芯片架与芯片的安装结构示意图一;
图35为本发明实施例二的芯片架与芯片的安装结构示意图二;
图36为本发明实施例二的芯片架与芯片的安装结构示意图三;
图37为本发明实施例三的芯片架的结构示意图一;
图38为本发明实施例三的芯片架的结构示意图二;
图39为本发明实施例一的墨盒中的芯片与触针的连接结构示意图一;
图40为本发明实施例一的墨盒中的芯片与触针的连接结构示意图二;
图41为本发明实施例一的墨盒中的芯片与触针的连接结构示意图三;
图42为本发明实施例一的墨盒中的芯片与触针的连接结构示意图四;
图43为本发明实施例一的墨盒的结构示意图;
图44为本发明实施例二的墨盒的结构示意图;
图45为本发明实施例二的墨盒中的芯片的结构示意图;
图46为本发明实施例二的墨盒中的芯片与芯片架的安装示意图;
图47为本发明用于安装墨盒的安装部的结构示意图;
图48为本发明实施例三的墨盒的第一结构示意图;
图49为本发明实施例三的墨盒的第二结构示意图;
图50a为本发明实施例四的芯片架的结构示意图一;
图50b为本发明实施例四的芯片架的结构示意图二;
图51a为本发明实施例三的芯片架与墨盒芯片的第一结构示意图;
图51b为本发明实施例三的芯片架与墨盒芯片的第二结构示意图;
图51c为本发明实施例三的芯片架与墨盒芯片的第三结构示意图;
图51d为本发明实施例三的芯片架与墨盒芯片的第四结构示意图;
图51e为本发明实施例三的芯片架与墨盒芯片的第五结构示意图;
图51f为本发明实施例三的芯片架与墨盒芯片的第六结构示意图;
图52为本发明实施例三的墨盒的第三结构示意图;
图53a为本发明实施例三的壳体的局部结构示意图一;
图53b为本发明实施例三的壳体的局部结构示意图二;
图53c为本发明实施例三的壳体的局部结构示意图三;
图54为本发明实施例四的墨盒的第一结构示意图;
图55为本发明实施例四的墨盒的爆炸示意图;
图56a为本发明实施例四的壳体的局部结构示意图一;
图56b为本发明实施例四的壳体的局部结构示意图二;
图56c为本发明实施例四的壳体的局部结构示意图三;
图57为本发明实施例四的安装墨盒时,墨盒芯片与第二组触针相接触的位置示意图;
图58a为本发明实施例四的安装墨盒时,墨盒芯片到达第一组触针和第二组触针之间的位置示意图一;
图58b为本发明实施例四的安装墨盒时,墨盒芯片到达第一组触针和第二组触针之间的位置示意图二;
图59a为本发明实施例四的取出墨盒时的位置示意图一;
图59b为本发明实施例四的取出墨盒时的位置示意图二;
图60为本发明实施例五的墨盒的结构示意图。
为使本发明实施例的目的、技术方案和优点更加清楚,下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
除非另有定义,本文所使用的所有的技术和科学术语与属于本发明的技术领域的技术人员通常理解的含义相同。本文中在本发明的说明书中所使用的术语只是为了描述具体的实施例的目的,不是旨在于限制本发明。
其中,“上”、“下”、“前”、“后”等的用语,是用于描述各个结构在附图中的相对位置关系,仅为便于叙述的明了,而非用以限定本发明可实施的范围,其相对关系的改变或调整,在无实质变更技术内容下,当亦视为本发明可实施的范畴。
“第一”、“第二”仅用于方便描述不同的部件,而不能理解为指示或暗示顺序关系、相对重要性或者隐含指明所指示的技术特征的数量。由此,限定有“第一”、“第二”的特征可以明示或者隐含地包括至少一个该特征。
本实施例提供了一种墨盒芯片,该墨盒芯片用于与安装部内的触针电连
接,并且,该墨盒芯片上设置有容纳槽,上述容纳槽内设置有用于与触针相接触的接触部。
具体的,参考附图3-4可知,本实施例提供了一种与打印机安装部内的多个触针7电连接的墨盒芯片1,墨盒芯片1上设置有可容纳触针7的容纳槽2,该容纳槽2内设置有至少两个用于与触针7相接触的内连接端子,该内连接端子上设置有内接触部201,触针7与内接触部201相接触。
本实施例对于墨盒芯片1和容纳槽2的具体形状结构不做限定,本领域技术人员可以根据具体的设计需求进行设置,例如,可以将墨盒芯片1设置矩形形状,也可以设置为正方形或者椭圆形结构等等,而对于容纳槽2而言,可以将容纳槽2设置为矩形槽或者梯形槽等等;具体的,当容纳槽2为矩形结构时,则内接触部201所在的接触面与墨盒芯片1的侧面(第一平面101)垂直;当容纳槽2为梯形结构时,内接触部201所在的接触面为倾斜面,此时的接触面与侧面基本垂直;此外,对于内接触部201的具体个数不做限定,例如,可以将内接触部201的个数设置为两个、三个或四个等等,此时可以将容纳槽2的宽度设置为较宽,这样可以有效地防止在安装过程中,因容纳槽2较小而产生的触针7容易折断、无法安装到位的情况,并且,在所设置的内接触部201中的两个内接触部201相对立设置,这样可以最大限度的减少两个内连接端子之间的干扰,进而保证了墨盒芯片1使用的稳定可靠性。
另外,墨盒芯片1上设置的容纳槽2的个数为至少一个,而对于容纳槽2具体的个数可以根据具体的设计需求进行设置;而当容纳槽2的个数为1个时,如图3-4所示,可以将部分连接端子设置在容纳槽2中,部分连接端子设置在第一平面101上,设置在容纳槽2内的端子可以是较为重要的连接端子,例如:电源端子、安装检测端子等等;而当容纳槽2的个数为多个时,如图5-6所示,则可以使得所有的连接端子均设置于容纳槽2内,进而可以有效地克服现有技术中所存在的容易引起芯片接触不良、触针7损坏的缺陷。
本实施例所提供的墨盒芯片1,通过在墨盒芯片1上设置有可容纳触针7的容纳槽2,并且容纳槽2内设置有至少两个用于与触针7相接触的内接触部201,进而避免了在墨盒芯片1安装过程中,若墨盒芯片1发生偏移,触针7可能会无法滑入凹槽内,会容易引起墨盒芯片1接触不良,触针7损坏(弯折)的情况,保证了墨盒芯片1与触针7的稳定、有效接触,进而提高
了墨盒芯片1使用的稳定可靠性,有利于市场的推广与应用。
在上述实施例的基础上,继续参考附图3-4可知,本实施例对于墨盒芯片1的具体形状结构不做限定,其中,较为常见的,将墨盒芯片1设置为矩形结构,矩形结构的墨盒芯片1包括:第一平面101和与第一平面101垂直相交的第三平面103,第一平面101的表面积小于第三平面103的表面积;其中,墨盒芯片1的第三平面103垂直于墨盒芯片1的安装方向,并且,墨盒上的出墨口中心线可以与第三平面103相垂直。第一平面101上设置有至少一个容纳槽2,且设置于容纳槽2内的每个内接触部201均与第一平面101呈一预设角度。
其中,对于该墨盒芯片1而言,具有第一平面101、第二平面102、第三平面103、第四平面104、第五平面105和第六平面106,其中,第一平面101和第二平面102相对且平行设置,第三平面103和第四平面104相对且平行设置,第五平面105和第六平面106相对且平行设置,上述的第一平面101与第三平面103、第四平面104、第五平面105、第六平面106为基本垂直连接,第二平面102与第三平面103、第四平面104、第五平面105、第六平面106为基本垂直连接,并且第三平面103和第四平面104的表面积最大,因此,可以在第三平面103或者第四平面104上设置电器元件,例如存储器5等,这样电器元件的可设置区域较大,并且使得设置于墨盒芯片1上的电器元件之间的距离较大,减少了电器元件之间的干扰,进一步保证了墨盒芯片1的使用效果。
另外,对于内接触部201与第一平面101所形成的预设角度的具体数值范围不做限定,本领域技术人员可以根据具体的设计需求进行设置,其中,较为优选的,可以将预设角度设置为90°,这样使得内接触部201与第一平面101相垂直,在墨盒芯片1进行安装的过程中,避免了因刮蹭对内接触部201造成损害,保证了内接触部201的正常使用效果,进一步保证了墨盒芯片1使用的稳定可靠性;当然的,本领域技术人员还可以将内接触部201的表面与第一平面101呈一定角度设置,只要能够实现可以更好的与触针7相接触的技术效果即可,在此不再赘述。
在上述实施例的基础上,继续参考附图3-4可知,当设置于第一平面101上的容纳槽2的个数不足以设置有与所有触针7相接触的连接端子,此时,
在第一平面101上可以设置有容纳槽2和用于与触针7相接触的外接触部3。
其中,外接触部3与内接触部201的功能作用相同,用于与触针7相接触,存在不同的是,外接触部3设置于第一平面101上,而内接触部201设置于容纳槽2内;而对于内接触部201设置于容纳槽2内的具体位置不做限定,本领域技术人员可以根据具体的设计需求进行设置,其中,较为优选的,可以将内接触部201设置为位于容纳槽2内的与第一平面101相交的槽端面202上,这样可以有效地减少设置于容纳槽2内的触针7容易折断、无法安装到位情况的产生,并且通过使设置于容纳槽2内的两个内接触部201相对设置,减少了内连接端子之间的干扰,进一步保证了墨盒芯片1使用的稳定可靠性。
进一步的,参考附图5-7可知,本实施例还可以将容纳槽2的个数设置为多个,且将多个容纳槽2均设置于第一平面101上;为了进一步保证触针7可以安装到位,且使容纳槽2起到引导触针7的作用,还可以将容纳槽2的宽度尺寸沿远离第一平面101的方向设置为逐渐变小。
本领域技术人员可以理解,容纳槽2的深度越深,容纳槽2的底面离触针7越远;容纳槽2的深度越浅,容纳槽2的底面离触针7越近;如果底面远离触针7,底面不会与触针7相接触;如果底面离触针7越近,墨盒芯片1安装到安装部后,触针7因安装所形成的压力就越大,容易对触针7头造成损害;当然的,以上两种方式应用于不同的情况下,具体的可以根据用户的设计需求进行选择、设置。
通过将容纳槽2的宽度尺寸设置为沿远离第一平面101的方向逐渐变小,不仅可以使得触针7与接触部能够稳定、有效、更好地接触,并且还减少了容纳槽2的底面对触针7所造成的安装压力,进一步保证了墨盒芯片1使用的稳定可靠性。
在上述实施例的基础上,继续参考附图5-7可知,由于墨盒芯片1上的连接端子数量可以为奇数,例如7、9、11等;也可以为偶数,例如6、8、10等;当连接端子的数量为偶数,且设置于第一平面101上的容纳槽2个数为1个时,则可以将该容纳槽2内设置有至少两个内连接端子上的内接触部201,而其他连接端子上的接触部可以设置于第一平面101上,如图3-4所示;而当设置于第一平面101上的容纳槽2个数为多个时,可以将每个容纳槽2
内均设置有两个内接触部201;或者,还可以将多个容纳槽2中设置为包括第一容纳槽21和第二容纳槽22,第一容纳槽21内设置有两个内接触部201,第二容纳槽22内设置有三个内接触部201,其中,三个内接触部201分别设置于第二容纳槽22的两个槽端面202和一个底端面203上,此种设置方式可以避免在安装过程中,因容纳槽2较小而产生背景技术中的触针7折断、无法安装到位的情况。同时,也有效地减少了端子之间的干扰;此时,为了满足与连接端子相连接,可以在第一平面101上位于多个容纳槽2的一侧端还设置有侧边槽6,该侧边槽6内设置有一用于与触针7相接触的侧接触部601,其中,对于侧接触部601设置于侧边槽6的具体位置不做限定,本领域技术人员可以根据具体的设计需求进行设置,其中,较为优选的,可以将侧接触部601设置为侧边槽6内与容纳槽2相靠近的侧端面上,这样方便触针7与侧接触部601的接触。
而当连接端子的个数为奇数时,可以将第一平面101上设置有一个容纳槽2,该容纳槽2内设置有至少两个内接触部201,而其他连接端子的接触部设置于第一平面101上;或者,还可以将第一平面101上设置多个容纳槽2,每个容纳槽2内均设置有两个内接触部201,此时,为了满足与连接端子相连接,可以在第一平面101上位于多个容纳槽2的一侧端还设置有侧边槽6,该侧边槽6内设置有一用于与触针7相接触的侧接触部601,如图5-6所示;或者,还可以将多个容纳槽2设置为包括第一容纳槽21和第二容纳槽22,第一容纳槽21内设置有两个内接触部201,第二容纳槽22内设置有三个内接触部201,如图7所示,此时可以有效地实现墨盒芯片1与触针7相接触,并且可以根据不同的触针7数量设置不同的墨盒芯片1结构,进而扩大了墨盒芯片1的适用范围,提高了墨盒芯片1的实用性。
在上述实施例的基础上,继续参考附图13-16可知,本实施例中可以将墨盒芯片1设置为软板芯片,该软板芯片包括:第一连接部9和与第一连接部9相连接的第二连接部10,第二连接部10上折叠形成有至少一个容纳槽2。
其中,由于第二连接部10上折叠形成有至少一个容纳槽2,因此,较为优选的,将第二连接部10的长度尺寸设置为大于第一连接部9的长度尺寸,以方便容纳槽2的形成;此外,当墨盒芯片1为软板芯片时,容纳槽2不仅可以通过折叠形成,还可以将软板芯片安装于芯片架11上,软板芯片通过芯
片架11的支撑与固定形成容纳槽2,也即:容纳槽2可以在墨盒芯片1进行安装之前已经设置好,也可以在墨盒芯片1进行安装之后形成;另外,容纳槽2的个数可以设置为1个或者多个,并且在多个容纳槽2中还可以设置为包括上述实施例中的第一容纳槽21和第二容纳槽22,只要能够使得墨盒芯片1与触针7进行有效、稳定接触即可,在此不再赘述。
通过将墨盒芯片1设置为软板芯片,并且使得软板芯片通过折叠或者芯片架11的支撑与固定形成容纳槽2,有效地保证了软板芯片与触针7进行接触的稳定性和有效地,避免了触针7损害情况的产生,提高了墨盒芯片1的适用范围,有利于市场的推广与应用。
另外,参考附图19-20所示,本实施例提供了一种可拆卸的安装到打印机安装部内的墨盒8,打印机安装部包括:多个触针7,多个触针7在垂直于墨盒8安装到安装部内的安装方向上呈两排排列。
其中,对于触针7的具体个数不做限定,本领域技术人员可以根据具体的设计需求进行设置,例如:可以将触针7的个数设置为6个、7个等等,其中,较为常见的,触针7的个数为7个,7个触针7在垂直于墨盒8安装到安装部内的方向上呈两排排列,具体可参考附图9所示;当墨盒芯片1上的第一平面101上存在一个容纳槽2时,该触针7与墨盒芯片1相接触的具体结构可以参考附图8-9,其中,在多个触针7中存在两个触针7设置于容纳槽2内,其他的触针7与第一平面101相接触;当墨盒芯片1上的第一平面101上设置有多个容纳槽2和一个侧边槽6时,且每个容纳槽2设置有两个与触针7相接触的内接触部201时,该触针7与墨盒芯片1相接触的具体结构可以参考附图10-11;而当墨盒芯片1上的一平面上设置有多个容纳槽2,而多个容纳槽2包括第一容纳槽21和第二容纳槽22时,该触针7与墨盒芯片1相接触的具体结构可以参考附图12。
通过将墨盒8设置有上述的墨盒芯片1,具体的,通过在墨盒芯片1上设置有可容纳触针7的容纳槽2,并且容纳槽2内设置有至少两个用于与触针7相接触的内接触部201,进而避免了在墨盒芯片1安装过程中,若芯片发生偏移,触针7可能会无法滑入凹槽内,会容易引起墨盒芯片1接触不良,触针7损坏(弯折)的情况,保证了墨盒芯片1与触针7的稳定、有效接触,进而提高了墨盒8使用的稳定可靠性,有利于市场的推广与应用。
在上述实施例的基础上,继续参考附图19-20可知,本实施例对于内接触部201设置的具体排列方式不做限定,本领域技术人员可以根据具体的设计需求进行设置,较为优选的,将墨盒芯片1上的内接触部201设置在内连接端子上,内连接端子在垂直于墨盒8安装到安装部内的安装方向上呈一排排列。
其中,内连接端子为设置于容纳槽2内的连接端子,而将内连接端子设置为沿垂直于墨盒8安装到安装部的方向上呈一排排列设置,而由于内接触部201设置于内连接端子上,因此,内接触部201在垂直于墨盒8安装到安装部内的安装方向上同样呈一排排列,这样使得内接触部201与触针7的排列方式相对应,以方便触针7与内接触部201的接触,保证了墨盒芯片1的接触效果,进而提高了墨盒8使用的稳定可靠性。
在上述实施例的基础上,继续参考附图19-20可知,本实施例对于墨盒芯片1安装到墨盒8上的具体实现方式不做限定,本领域技术人员可以根据具体的设计需求进行设置,较为优选的,可以将墨盒芯片1上设置有定位部4,墨盒8上设置有与定位部4相配合的连接部801,墨盒芯片1通过定位部4和连接部801安装在墨盒8上。
其中,对于定位部4的具体结构不做限定,本领域技术人员可以根据具体的设计需求进行设置,例如:将定位部4设置呈与墨盒芯片1相适配的定位槽,墨盒芯片1通过定位槽可以稳定安装在墨盒8上等等,只要能够实现将墨盒芯片1稳定有效地安装在墨盒8上即可,在此不再赘述。
在上述实施例的基础上,继续参考附图21-22可知,除了上述直接将墨盒芯片1通过定位部4安装到墨盒8上的方式以外,本领域技术人员还可以采用其他方式将墨盒芯片1安装到墨盒8上,例如:将墨盒芯片1设置为通过芯片架11安装在墨盒8上。其中,对于芯片架11的具体形状结构不做限定,本领域技术人员可以根据具体的设计需求进行设置,而当墨盒芯片1通过芯片架11安装在墨盒8上时,首先要实现墨盒芯片1与芯片架11的连接,具体的,在墨盒芯片1上设置有定位部4,该定位部4可以为安装孔,芯片通过安装孔和定位件12安装于墨盒芯片1上,具体可参考附图17所示,待将墨盒芯片1安装在芯片架11上后,在芯片架11上可以设置有连接杆,墨盒8上设置有与连接杆相配合的连接杆槽,芯片架11通过连接杆与连接杆槽
安装墨盒8上,当芯片架11安装在墨盒8上时,可以实现墨盒芯片1与触针7相接触,具体可参考附图18所示。
通过芯片架11将墨盒芯片1安装在墨盒8上,此时的墨盒芯片1可以为软板芯片,不仅有效地保证了墨盒芯片1安装的稳定可靠性,并且还扩大了墨盒芯片1的适用范围,进一步提高了墨盒8使用的稳定可靠性,有利于市场的推广与应用。
在上述实施例的基础上,继续参考附图21-22所示,在墨盒芯片1包括:第一平面101和与第一平面101垂直相交的第三平面103,第一平面101的表面积小于第三平面103的表面积时,将墨盒8设置为还包括:出墨口、底面和侧面,其中,出墨口所在的平面为底面,与底面相垂直且用于安装墨盒芯片1的面为侧面;在将墨盒芯片1安装到墨盒8上之后,墨盒芯片1上的接触部突出于侧面;且至少一个接触部与侧面相垂直。
将墨盒芯片1上的接触部设置为突出于墨盒8的侧面,有效地方便了触针7与墨盒芯片1上的接触部相接触,并且保证了触针7与墨盒芯片1上的接触部相接触的稳定可靠性;另外,由于墨盒芯片1上设置有至少一个容纳槽2,而容纳槽2内设置有至少两个用于与触针7相接触的内接触部201,而此时的内接触部201可以与侧面呈一预设角度,较为优选的,该预设角度可以为90°。
此外,第201320875786.2号的中国专利公开了一种墨盒芯片、墨盒和喷墨打印机,其中,芯片上包括五个下排芯片触点和四个上排芯片触点,在墨盒芯片与触针结构的墨盒芯片触针接触时,下排芯片触点包括在其端部的接触部,接触部与下排墨盒芯片触针的凸起部邻接,上排芯片触点包括在其端部的接触部,接触部与上排墨盒芯片触针的凸起部邻接。
然而,由于用于与触针向接触的接触部为尖形凸起结构,而尖形凸起结构制造困难,精度难以控制,加工制造难度大;此外,在安装过程中,当芯片与触针上排接触的时候,会受到触针给予的横向力,芯片容易晃动,进而会容易引起芯片接触错位,影响芯片的正常使用。
进一步的,为了避免上述缺陷,参考附图23-25可知,本实施例提供了另一种墨盒芯片1,该墨盒芯片1用于与安装部内的触针7电连接,墨盒芯片1上设置有多个平滑连接的第一凹部107和多个平滑连接的第二凹部108,
第一凹部107设置于墨盒芯片1的第一表面109上,第二凹部108设置于墨盒芯片1的第二表面1010上,第一凹部107朝向第二表面1010的方向凹陷,第二凹部108朝向第一表面109的方向凹陷,且第一凹部107和第二凹部108内均设置有用于与触针7相接触的接触部13。
其中,墨盒芯片1的形状结构可以为矩形结构、正方形结构或者椭圆形结构等等,具体的墨盒芯片1形状结构可以根据设计需求进行设置,较为常见的,将墨盒芯片1设置呈矩形结构,另外,由于多个第一凹部107为平滑连接,进而使得多个第一凹部107构成第一波浪形结构,相类似的,多个第二凹部108为平滑连接,进而使得多个第二凹部108构成第二波浪形结构,且由于第一凹部107设置于第一表面109上,第二凹部108设置于第二表面1010上,对于墨盒芯片1而言,较为优选的,将第一表面109和第二表面1010设置为相对平行设置,进而使得由多个第二凹部108构成的第二波浪形结构与由多个第一凹部107构成的第一波浪形结构相平行,即使得第一波浪形结构与第二波浪形结构的弯曲趋势保持一致,进而使得墨盒芯片1结构较为整齐,方便对接触部13的设置;此外,为了方便对墨盒芯片1的加工制造,更为优选的,可以将第一凹部107与第二凹部108设置为沿垂直于墨盒芯片1安装到安装部的方向上相互间隔设置,也就是说,在墨盒芯片1的同一位置处,若第一表面109为凹陷结构,那么在与第一表面109相对的第二表面1010上的同一位置处则为凸起结构;若第一表面109为凸起结构,那么在与第一表面109相对的第二表面1010上的同一位置处则为凹陷结构,这样有效地降低了墨盒芯片1的生产加工难度,同时也有效地减少了墨盒芯片1的生产制造成本。
本领域技术人员可以理解的是,一般情况下,需要将接触部13设置于连接端子14上,而连接端子14的大小和宽度可以根据墨盒芯片1的大小以及空间大小进行调节设置,并且连接端子14的大小和宽度可以不一致,并且,在墨盒芯片1上还可以设置一些不能与触针7相接触的附加端子19,该附加端子19可以用来对其他端子进行短路检测等;另外,本实施例可以将与触针7相接触的接触部13设置于第一凹部107内和第二凹部108内,而多个第一凹部107平滑连接,多个第二凹部108平滑连接,进而在该墨盒芯片1与触针7相接触时,第一凹部107和第二凹部108可以对触针7形成引导作用,
防止墨盒芯片1与触针7容易出现安装错位的情况,有效地保证了墨盒芯片1的正常使用效果。
本实施例提供的墨盒芯片1,通过在墨盒芯片1的第一表面109上设置的多个平滑连接的第一凹部107,在第二表面1010上设置的多个平滑连接的第二凹部108,并且将用于与触针7相接触的接触部13设置于第一凹部107内和第二凹部108内,不仅使得接触部13的可设计空间较大,降低了制造难度和工艺难度,同时使得第一凹部107和第二凹部108在墨盒芯片1与触针7安装过程中,对触针7形成了引导作用,避免了容易引起芯片接触错位情况的产生,保证了墨盒芯片1的正常使用效果,进而提高了墨盒芯片1的实用性,有利于市场的推广与应用。
在上述实施例的基础上,继续参考附图22-24可知,对于墨盒芯片1而言,墨盒芯片1不仅可以包括第一表面109和与第一表面109相对的第二表面1010,该墨盒芯片1还可以包括边缘面1011,边缘面1011,且与第一表面109和第二表面1010的末端相连接,并且该边缘面1011分别与第一表面109和第二表面1010形成一预设角度,该预设角度可以为90°或者其他角度等等,具体的角度范围可以根据设计需求进行设置,在此不再赘述;此外,在墨盒芯片1包括边缘面1011时,对于接触部13的具体设置位置不做限定,本领域技术人员可以根据具体的设计需求进行设置,例如,可以将接触部13设置为紧靠边缘面1011;或者,将接触部13与边缘面1011之间设置有间距;需要注意的是,本实施例中的紧靠边缘面1011可以包括:接触部13与边缘面1011相连接、接触部13与边缘面1011无限接近的情况,其中,接触部13与边缘面1011无限接近为接触部13与边缘面1011的距离小于或等于预设阈值的情况,预设阈值可以根据具体的设计需求进行设置,例如,可以设置为1mm或2mm等等,具体可以参考附图22-23所示;而另外一种情况则为接触部13与边缘面1011之间设置有间距,该间距为大于预设阈值的情况,一般情况下该间距为设计人员可以直接观察到接触部13与边缘面1011之间存在的距离,而具体的间距距离可以根据具体的设计需求进行设置,只要能够达到方便触针7与接触部13进行接触即可,在此不再赘述。
在上述实施例的基础上,继续参考附图23-25,并结合图39-42可知,本实施例对于用于与接触部13相接触的触针7的具体结构不做限定,其中,
较为优选的,将触针7设置为包括两排触针,其中一排触针为上触针701,另一排触针为下触针702,沿平行于墨盒芯片1边缘面1011的方向上观察,上触针701所形成的排结构与下触针702所形成的排结构相平行,并且上触针701与下触针702相间隔设置;为了便于接触部13与触针7相接触,可以将接触部13设置为包括:用于与上触针701相接触的上接触部1302和用于与下触针702相接触的下接触部1301,上接触部1302设置于第一凹部107内,下接触部1301设置于第二凹部108内。
其中,由于接触部13设置于连接端子14上,因此,当接触部13包括上接触部1302和下接触部1301时,相应的,连接端子14包括上端子1402和下端子1401,而上接触部1302设置于上端子1402上,下接触部1301设置于下端子1401上,上接触部1302和下接触部1301均用于与触针7相接触;另外,当将上接触部1302设置于第一凹部107内,下接触部1301设置于第二凹部108内时,为了保证上接触部1302与上触针701、下接触部1301与下触针702的接触效果,较为优选的,可以将上接触部1302设置于第一凹部107靠近第二表面1010的位置,下接触部1301设置于第二凹部108靠近第一表面109的位置;此时,由于上接触部1302设置于第一凹部107内的特定位置处,下接触部1301设置于第二凹部108内的特定位置处,使得在与触针7相接触的过程中,通过第一凹部107和第二凹部108对触针7所形成的有效引导作用,很容易使得上触针701与设置于第一凹部107内的上接触部1302相接触,下触针702与设置于第二凹部108内的下接触部1301相接触,并且不容易出现错位滑出的情况,保证了触针7与接触部13接触的稳定可靠性,进而提高了墨盒芯片1的正常使用效果;当然的,本领域技术人员还可以将上接触部1302设置于第一凹部107的其他位置处,将下接触部1301设置于第二凹部108的其他位置处,只要能够实现或者接近实现上述技术效果即可,在此不再赘述。
墨盒芯片1可以采用FR-4等材质制成,通过冲压等方式将墨盒芯片1制成出第一凹部107和第二凹部108;即,墨盒芯片1制造完成后在自然状态下形成第一凹部107和第二凹部108。墨盒芯片1也可以采用线切割等方式制造出第一凹部107和第二凹部108;即,墨盒芯片1制造完成后在自然状态下形成第一凹部107和第二凹部108。墨盒芯片1也可以是软性芯片,优
选的材质为FPC材料,此材料具有柔性特征,易于弯曲和变形,利用芯片架11将墨盒芯片1支撑和压着出第一凹部107和第二凹部108。
在上述实施例的基础上,继续参考附图22-27可知,本实施例对于墨盒芯片1上所设置的第一凹部107和第二凹部108的具体形成方式不做限定,本领域技术人员可以根据具体的设计需求进行设置,例如,可以将墨盒芯片1设置为在出厂之后即形成了第一凹部107和第二凹部108,此时,可以认为墨盒芯片1在自然状态下形成第一凹部107和第二凹部108,如图24-26所示;或者,也可以将墨盒芯片1设置为在出厂之后经过人为操作形成第一凹部107和第二凹部108,例如,墨盒芯片1为软板芯片,人工对软板芯片进行折叠操作后形成第一凹部107和第二凹部108,一般情况下,在软板芯片出厂时,软板芯片的第一表面109和第二表面1010位于同一平面上,因此,需要将软板芯片的第一表面109和第二表面1010折叠成相对面,为了保证对软板芯片表面的折叠效果,可以将软板芯片上设置有折叠线15,上述折叠线15设置于第一表面109和第二表面1010之间,具体可参考附图25所示,设计人员可以按照该折叠线15的位置对软板芯片进行折叠,待将第一表面109和第二表面1010折叠为相对平行设置时,进一步可以将软板芯片上折叠形成多个第一凹部107和第二凹部108;或者,还可以将墨盒芯片1设置为在出厂之后通过特定装置的压力与塑形之后形成第一凹部107和第二凹部108,例如,墨盒芯片1为软板芯片,软板芯片安装到芯片架11上,软板芯片通过芯片架11的支撑与固定形成第一凹部107和第二凹部108,具体的可参考附图34-36所示。
其中,芯片架11的具体结构不做限定,本领域技术人员可以根据具体的设计需求进行设置,例如,可以将芯片架11设置呈一体成型结构或者分体式结构,而对于分体式结构的芯片架11而言,如图28-29所示,可以将芯片架11设置为包括上支架1101和与上支架1101活动连接的下支架1102,其中,上支架1101和下支架1102可以通过旋转轴1105进行连接,使得上支架1101通过旋转轴1105可进行转动;当然的,本领域技术人员还可以采用其他结构的芯片架11,只要能够使得墨盒芯片1形成多个第一凹部107和多个第二凹部108即可;另外,通过芯片架11使得芯片上形成第一凹部107和第二凹部108,有效地扩展了墨盒芯片1的加工制造方式,进一步降低了该墨盒芯片1
的生产制造难度,提高了该墨盒芯片1的实用性,有利于市场的推广与应用。
在上述实施例的基础上,继续参考附图22-27可知,本实施例中的墨盒芯片1包括第一表面109和第二表面1010,而第一表面109和第二表面1010相对平行设置,并且还可以将第一表面109和第二表面1010的表面积设置为最大,这样可以将设置于墨盒芯片1上的电器元件设置于第一表面109或者第二表面1010上,具体的,可以将墨盒芯片1设置为还包括:设置于墨盒芯片1上的存储器5,存储器5与设置于第一凹部107和/或第二凹部108内的至少一个接触部13相连接,使得存储器5可以存储墨盒芯片1所在的墨盒的信息;此外,对于墨盒芯片1而言,由于第一表面109和第二表面1010的表面积设较大,进而可以将存储器5设置于第一表面109或者第二表面1010上,除了存储器5之外,还可以将其他的电器元件(图中为示出)设置于第一表面109或者第二表面1010上,上述电器元件可以用于完成墨盒芯片1的相应功能(例如:安装检测等);由于第一表面109和第二表面1010的表面积较大,进而不仅可以方便存储器5和其他电器元件的设置,并且还可以有效地减少存储器5与电器元件之间的干扰,有效地保证了墨盒芯片1使用的稳定可靠性。
另外,参考附图47可知,打印机上设置有用于安装墨盒的安装部400,安装部400包括供墨部410、触针420、打印头430、开口440。供墨部410位于安装部400的底壁400a上,供墨部410与打印头430相连接,触针420位于安装部400的侧壁400b上;另外,墨盒沿着预设的安装方向安装到安装部400内,墨盒具有出墨口、芯片、壳体,当墨盒安装到安装部400后,出墨口与供墨部410相接合,芯片与触针420相接合;当墨盒从开口440处安装到安装部400内,芯片设置在墨盒的侧壁上,且芯片上的端子裸露在墨盒的外表面上,触针420设置在安装部400的侧壁上,端子位于墨盒的侧壁上,在安装过程中裸露在外表面的端子可能会受到安装部400的刮伤而受损,墨盒倾斜的姿势下安装到安装部400的情况下,尤其是墨盒在安装反的情况下(即将后侧壁作为侧壁400b来安装),芯片特别是端子很容易碰到安装部400的侧壁400b后侧壁上,会导致因端子受损而产生的端子与触针420接触不良。
为了避免上述缺陷,参考附图3-43可知,本实施例提供了又一种墨盒8,
该墨盒8可拆卸的安装于容纳结构400上,并且该墨盒8上可以设置有上述实施例中的墨盒芯片1。具体的,墨盒芯片1的结构特征以及所对应的功能作用可参考上述陈述内容,在此不再赘述。
进一步的,继续参考附图3、43、47所示,上述的容纳结构400可以包括:设置有供墨部41的底面400a、垂直于底面400a的侧面400b,侧面400b上设置有触针420;墨盒8包括:用于与供墨部410相结合的出墨口18、与触针420相电连接的外接触部3,外接触部3上设置有用于与触针420相接触的槽端面202,槽端面202位于基本垂直于侧面400b的方向上,并且沿垂直于槽端面202的方向观察时,墨盒芯片1与出墨口18中心线之间具有间隔空间S。
其中,本实施例对于墨盒8的具体结构不做限定,本领域技术人员可以根据具体的设计需求进行设置,例如将墨盒8设置为包括壳体和用于容纳该壳体的壳体容纳部,出墨口18设置于壳体上,墨盒芯片1设置于壳体容纳部上;或者,还可以将墨盒8设置为还包括墨盒底壁803和与墨盒底壁803相垂直的墨盒侧壁802,上述出墨口18设置于墨盒底壁803上,墨盒芯片1设置于墨盒侧壁802上等等,只要能够使得墨盒8实现上述技术效果即可,在此不再赘述。
另外,本实施例对于墨盒芯片1设置于容纳结构400上的具体实现方式不做限定,本领域技术人员可以根据具体的设计需求进行设置,其中,较为优选的,可以将容纳结构400上设置有一用于供墨盒芯片1沿安装方向安装到容纳结构400内的开口440,而开口440的具体形状与墨盒芯片1的形状相适配,将墨盒芯片1安装到容纳结构400的方向设置为方向P,则侧面400b平行于安装方向P;当将墨盒芯片1安装到容纳结构400上时,墨盒芯片1上的槽端面202会与设置于侧面400b上的触针420相接触,而对于墨盒芯片1上的槽端面202的具体形状结构不做限定,本领域技术人员可以根据触针420的形状结构进行设置;此外,沿垂直于槽端面202的方向观察,将墨盒芯片1靠近出墨口18的一侧边缘所在位置设置为L2,将出墨口中心线所在位置设置为L1,参考附图44可知,L1与L2之间存在间隔空间S,也就是说出墨口中心线与墨盒芯片1之间存在间隔,而对于间隔空间S的具体数值范围不做限定,本领域技术人员可以根据具体的设计需求进行设置,只要能够
使得墨盒芯片1与出墨口中心线之间存在间隔空间S即可,这样有效地增大了出墨口18和墨盒芯片1的设计空间,同时减少了制造成本。
此外,需要注意的是,将槽端面202设置为位于基本垂直于侧面400b的方向上是指在具体生产设计时,将槽端面202设置为基本垂直于侧面400b的方向上,由于在具体生产设计中会存在一定的设计误差和/或生产误差,因此,很难使得槽端面202能够达到位于完全垂直于侧面400b的方向上,进而在允许的生产设计误差的范围内,只要能够达到将槽端面202设置于基本垂直于侧面400b的方向上即可,而为了能够达到对墨盒芯片1槽端面202的保护效果,较为优选的,可以将槽端面202与侧面400b形成一预设角度,并且将预设角度的范围设置为90°±15°,只要槽端面202与侧面所形成的预设角度在上述范围内,均为基本垂直的效果,这样可以有效地防止在墨盒芯片1安装过程中,因刮蹭容纳结构400的侧面400b而使得墨盒芯片1端子或墨盒芯片1槽端面202受损,保证了墨盒芯片1使用的稳定可靠性。
本实施例所提供的墨盒8,通过将墨盒芯片1的槽端面202设置于位于基本垂直与侧面400b的方向上,有效地克服了现有技术中存在的容易导致外接触部3受损而产生和触针420接触不良的问题,避免了在安装过程中,因刮蹭而对墨盒芯片1的外接触部3和槽端面202产生损害情况的产生,保证了墨盒8的正常使用效果;另外,通过将墨盒芯片1与出墨口中心线之间设置为具有一定的间隔空间S,有效地增大了出墨口18和墨盒芯片1的设计空间,减少了制造成本,进而提高了该墨盒8的实用性,有利于市场的推广与应用。
在上述实施例的基础上,继续参考附图13、16可知,当将槽端面202设置于墨盒芯片1的第三平面103上时,此时,在墨盒芯片1的第三平面103上同样可以设置容纳槽2,而当墨盒芯片1为软板墨盒芯片1时,容纳槽2可以在墨盒芯片1进行安装之前已经设置好,也可以在墨盒芯片1进行安装之后形成,例如,如图13的墨盒芯片1,该墨盒芯片1为软板墨盒芯片1,在墨盒芯片1进行安装前为平板结构,通过对该墨盒芯片1进行折叠操作,可以使得墨盒芯片1上形成容纳槽2;如图16所示,若需要将墨盒芯片1安装于容纳结构400上时,需要将带有墨盒芯片1的芯片架11安装于容纳结构400上,具体可以参考附图43-44、47所示,即实现了墨盒芯片1通过芯片
架11安装于容纳结构400上,此时的墨盒芯片1与出墨口中心线之间同样存在间隔空间S,这样有效地增大了出墨口18和墨盒芯片1的设计空间,同时也减少了生产制造成本。
另外,在上述实施例的基础上,继续参考附图6、23-28、47可知,间隔设置多个槽端面202是从垂直于容纳结构400的侧面400b、且垂直于安装方向P的方向上观察所形成的,而对于槽端面202设置于第一凹部107和第二凹部108中的具体位置不做限定,本领域技术人员可以根据具体的设计需求进行设置,其中,较为优选的,可以将设置于第一凹部107中的槽端面202设置于第一凹部107中靠近第四平面104的位置处,将设置于第二凹部108中的槽端面202设置于第二凹部108中靠近第三平面103的位置处,这样可以有效地防止与第一凹部107或者第二凹部108中的槽端面202相接触的触针420容易出现位置偏差的情况,保证了触针420与槽端面202接触的稳定可靠性,进而提高了墨盒8的正常使用效果。
在上述实施例的基础上,继续参考附图45可知,本实施例提供了另一种结构的墨盒芯片1,该墨盒芯片1包括软板部1012和与软板部1012相连接的硬板部1013,槽端面202设置于软板部1012上;槽端面202可以全部位于第三平面103,如图46所示,与槽端面202相匹配的触针420排列为一排;槽端面202也可以分别位于第三平面103和第一第三平面1032上,与槽端面202相匹配的触针420排列为上下两排或者多排。
其中,对于软板部1012和硬板部1013的具体形状结构不做限定,本领域技术人员可以根据具体的设计需求进行设置,较为优选的,将软板部1012和硬板部1013均设置为矩形结构,并且软板部1012的表面积尺寸大于硬板部1013的表面积尺寸,并且槽端面202设置于软板部1012上突出于硬板部1013的一侧,且该槽端面202与硬板部1013相背离;并且,在该墨盒芯片1上可以设置有穿过软板部1012和硬板部1013的安装孔,通过该安装孔可以将该墨盒芯片1安装于芯片架11上,如图46所示;而当需要将该墨盒芯片1安装于墨盒8上时,则需要将安装有该墨盒芯片1的芯片架11安装在墨盒8上,如图46所示,墨盒芯片1通过安装孔与连接件设置于墨盒芯片1上,而芯片架11上设置有连接杆1104,墨盒8上设置有连接杆槽,芯片架11通过连接杆1104和连接杆槽安装于墨盒8上,进而实现了将墨盒芯片1安装于
墨盒8上,此外,为了可以对墨盒芯片1的活动提供更好的支撑效果,在墨盒8上位于芯片架11的下端设置有弹性部件11,该弹性部件11可以为弹簧,通过设置的弹性部件11,此时,在将芯片架11安装于墨盒8上时,弹性部件11可以为芯片架11和墨盒芯片1的活动提供了有效支撑,进而可以实现将墨盒芯片1快速、稳定地安装在墨盒8上,提高了墨盒芯片1安装效率,进而提高了墨盒8的实用性。
本实施例的又一方面提供了一种喷墨打印机,该喷墨打印机包括上述的墨盒和可安装墨盒的容纳结构。
本实施例所提供的喷墨打印机,通过在喷墨打印机上设置有上述墨盒,有效地克服了现有技术中存在的容易导致端子受损而产生和触针接触不良的问题,避免了在安装过程中,因刮蹭而对墨盒芯片的外接触部和槽端面产生损害情况的产生,保证了喷墨打印机的正常使用效果;另外,通过将墨盒芯片与出墨口中心线之间设置为具有一定的间隔空间S,有效地增大了出墨口和墨盒芯片的设计空间,减少了制造成本,进而提高了该喷墨打印机的市场竞争力,有利于市场的推广与应用。
进一步的,在具体应用时,墨盒芯片通常可拆卸地安装在壳体的外壁上,且墨盒芯片安装至壳体上之后,墨盒芯片相对于壳体固定不动。墨盒芯片具有端子,触针架具有排列成两排的触针。墨盒可沿预设的安装方向P安装到安装部中,在安装墨盒的过程中,墨盒芯片上的端子挤压触针,使得触针向触针架内部变形,当端子越过触针时,触针恢复变形,端子接触触针的中间位置。
然而,在实施上述技术方案的过程中,由于触针的上部较细,且触针不具有朝向触针架外部的形变,在朝与安装方向相反的方向移动墨盒的过程中(即墨盒与安装部相分离过程中,墨盒向-P方向移动),墨盒芯片施加给触针向上的分力极易导致触针断裂或者变形,进而导致墨盒的取出操作较困难,给使用人员造成诸多不便。
因此,为了避免上述缺陷,在上述实施例的基础上,继续参照图3-5、39-42、47-48可知,本实施例提供另一种墨盒,安装在具有多组触针420的容纳结构400,容纳结构400设置在打印机等成像设备中。如图47所示,安装部底壁400a上设有供墨部410,供墨部410连接有打印头430,安装部侧
壁400b上设有多组触针420,触针420用于与墨盒的墨盒芯片200相结合,容纳结构400还设有用于安装墨盒的开口440。其中,上述附图中:P表示墨盒的安装方向;Q表示垂直于墨盒的安装方向P且朝向墨盒内部的方向;T表示垂直于墨盒安装方向P和方向Q的方向。
其中,每个触针420的底部具有山脊形凸起420a,且触针420具有一定的弹性,即山脊形凸起420a可以以整根触针420最上端为支点转动,即山脊形凸起420a具有向内转动的弹性变形能力。多个触针420在沿安装方向上形成上下两排:第一组触针421和第二组触针422;当墨盒安装到容纳结构400上时,墨盒芯片200位于第一组触针421和第二组触针422之间,同时与第一组触针421与第二组触针422相接触。
墨盒可以具有壳体100,壳体100具有侧部和内部,墨盒的侧部为墨盒的壳体100的侧部,墨盒的内部为壳体100围成的内部空间。壳体100上设有出墨口121,出墨口121用于与容纳结构400的供墨部410配合;对于出墨口121的设置位置,本实施例不做具体限定,本领域技术人员可以根据实际需要进行设置,只要能够与容纳结构400的供墨部410配合即可,例如出墨口121可以设置在壳体100的底部(即墨盒底面100c)。壳体100的内部设有储墨腔,储墨腔用于存储墨水。
壳体100的侧部安装有墨盒芯片200,墨盒芯片200能够相对于壳体100朝向墨盒内部移动,以远离触针420;壳体100上设有用于容纳墨盒芯片200的容纳部130,容纳部130用于在墨盒芯片200相对于壳体100移动时,容纳墨盒芯片200。其中,壳体100上具有平行于墨盒安装到容纳结构400的安装方向P的第一相对面100a和第二相对面100b,本实施例中的移动是指墨盒芯片200在第一相对面100a和/或第二相对面100b上产生了距离位移。例如:壳体100上的第一相对面100a和第二相对面100b作为支撑墨盒芯片200的支撑面,本实施例中的移动指的是墨盒芯片200在前述支撑面上产生了距离位移。
当墨盒安装到容纳结构400上时,端子与触针420相接触,在垂直于墨盒安装到容纳结构400的安装方向P的方向T上,上端子与下端子相互交叉设置,上接触部221a与下接触部211a相互交叉设置;第一凹部211和第二凹部221相互交叉设置。当墨盒安装到容纳结构400上时,端子的
至少一部分插入到第一组触针421和第二组触针422之间,具体的,墨盒芯片200的至少一部分(例如:上接触部221a和下接触部211a)沿方向Q的后端侧插入到第一组触针421和第二组触针422之间。墨盒芯片200的两侧还可以固定设置有连接部200a,壳体100上设置有配合部100d,配合部100d用于安装并支撑连接部200a,且连接部200a能够在配合部100d中移动。例如:连接部200a可以为凸块,配合部100d可以为导槽,凸块安装在导槽内,且凸块可以在导槽内移动,导槽的延伸方向可以相对于墨盒的安装方向倾斜设置且朝向墨盒内部,或者,导槽的延伸方向与墨盒的安装方向垂直且朝向墨盒内部。连接部200a可以采用焊接或者卡接的方式与墨盒芯片200固定,也可以与墨盒芯片200的一部分,墨盒芯片200一体成型。
本实施例中,连接部可以连接有驱动部,驱动部连接有控制部;控制部接收到用户取出墨盒的指令后,控制部向驱动部发送控制指令,驱动部根据该控制指令驱动连接部朝向墨盒内部移动,也即驱动墨盒芯片200朝向墨盒内部移动,从而远离容纳结构400上的触针420。其中,控制部可以为控制器,驱动部可以为电机,电机的输出端可以设置涡轮蜗杆等用于将转动运动转换成直线运动的装置,以带动连接部在配合部中移动。此外,还可以通过容纳结构400施加给墨盒芯片200的作用力,使连接部在配合部中移动。
本实施例提供的墨盒,在墨盒沿与安装方向相反的方向从容纳结构400中取出时,通过墨盒芯片200相对于壳体100朝向墨盒内部移动,墨盒芯片200能够远离容纳结构400上的触针420,并容纳在壳体100的容纳部130中,从而能够有效避免触针420被损坏,将墨盒顺利地从容纳结构400中取出。
进一步地,墨盒芯片200还能够相对于壳体100转动。具体地,墨盒芯片200两侧的连接部可以为转轴,壳体100上的配合部可以为长孔,转轴以自身的轴线为转动中心在长孔内转动,且转轴可以沿长孔的孔壁移动。
本实施例中,通过容纳结构400施加给墨盒芯片200的作用力,连接部能够在配合部中移动且转动。具体地,当墨盒沿与安装方向P相反的方向从容纳结构400中取出时,墨盒与容纳结构400的相对位置发生变化,
在此过程中,由于触针420不具有朝向-P或Q方向转动的能力,因此,当墨盒芯片200欲离开第一组触针421与第二组触针422之间时,第二组触针422会给予墨盒芯片200施加作用力,该作用力在沿配合部的延伸方向的分力会使墨盒芯片200的连接部在配合部中转动且移动,且墨盒芯片200朝向容纳结构400的一端进入容纳部130,从而避免了触针420朝向方向Q转动形变。当墨盒运动至墨盒芯片200划过第二组触针422的山脊形凸起420a后,墨盒芯片200不再受到使其转动的力,墨盒芯片200不再转动。
此时,可以在壳体100上可以设置复位装置,以在墨盒芯片200划过第二组触针422的山脊形凸起420a后,推动墨盒芯片200恢复原位。本实施例对于复位装置不做具体限定,本领域技术人员可以根据实际需要进行设置,只要能够实现推动墨盒芯片200复位的功能即可。
需要说明的是:在墨盒芯片200相对于壳体100的移动的过程中,墨盒芯片200在垂直于墨盒安装到安装部的安装方向,且朝向墨盒内部形成有位移。
在上述实施例的基础上,请参照图50a-51f,进一步地,墨盒芯片200安装在芯片架300上,芯片架300安装在壳体100的侧部,且芯片架300能够相对于壳体100移动;容纳部130还用于容纳芯片架300。
具体地,芯片架300的两侧设有连接杆311,连接杆311呈轴状;壳体100上开设有安装槽122,连接杆311插设在安装槽122中,安装槽的用于支撑连接杆移动的槽壁具有在垂直于墨盒的安装方向且朝向墨盒内部的方向上的投影距离;其中,本实施例对于该投影距离的具体数值不做限定,本领域技术人员可以根据实际需要进行设置,但是,该投影距离需大于连接杆311在相同方向上的投影距离,以使连接杆311能够朝向墨盒内部移动。可以理解的是:墨盒芯片200设有接触部的部分暴露在芯片架300外,以便于与触针420结合。
优选地,安装槽122在垂直连接杆311的轴向上的第一投影面积大于连接杆311在垂直连接杆311的轴向上的第二投影面积,以使连接杆311在安装槽122中具有能够顺利运动的活动空间。
为了在将墨盒安装至容纳结构400之后,墨盒芯片200能够与触针420
紧密接触,进一步地,芯片架300上设有抵接部312,抵接部312与壳体100之间夹设由弹性元件500。
具体地,抵接部312可以包括包装本体,板状本体可以垂直芯片架300设置,板状本体朝向壳体100延伸有凸柱,该凸柱用于与弹性元件500连接;弹性元件500可以为弹簧,也可以为弹性材料制成的其它结构;以弹性元件500为弹簧为例:弹簧的一端可以与壳体100固定连接,弹簧的另一端可以套设在凸柱中或者插设在凸柱的中心孔中。较佳地,抵接部312可以设置在芯片架300的底端,且垂直于芯片架300延伸预设长度,弹性元件500可以设置在容纳部130内,以使墨盒的结构更加紧凑。
芯片架300和墨盒芯片200形成接合体,在墨盒与容纳结构400相分离过程中,接合体转动且在垂直于墨盒安装到安装部的安装方向且朝向墨盒内部的方向上形成有位移。从而,在将墨盒安装至容纳结构400之后,弹性元件500通过抵顶芯片架300的抵接部312将墨盒芯片200抵顶在第一组触针421和第二组触针422之间,以保证墨盒芯片200与容纳结构400上的触针420接触良好。
进一步地,连接杆能够在安装槽中转动且沿安装槽的槽壁的延伸方向移动。在芯片架300相对于壳体100转动的同时相对于壳体100移动,能够有效减少容纳部130的占用空间,有助于增大壳体100内的储墨腔,增大墨盒存储的墨水量。
进一步的,请参照图50a-53c,进一步地,芯片架300包括:第一芯片架310及与第一芯片架310可拆卸连接的第二芯片架320,墨盒芯片200安装在第一芯片架310和第二芯片架320之间的空间部330中。其中,空间部330的形状与墨盒芯片200的形状相匹配。
具体地,第一芯片架310和第二芯片架320的一端固定连接,且第一芯片架310和第二芯片架320可以绕连接处转动;当然,第一芯片架310和第二芯片架320也可以分体设置,本领域技术人员可以根据实际需要进行设置。第一芯片架310和第二芯片架320的可拆卸连接可以通过卡扣与卡孔或者螺栓连接等实现,本领域技术人员可以根据实际需要进行设置,只要能实现连接第一芯片架310和第二芯片架320的可拆卸连接即可。将第一芯片架310与第二芯片架320可拆卸连接,在更换墨盒芯片200时,
只需将该连接拆卸,打开空间部330,取出墨盒芯片200更换新的墨盒芯片200即可,而不用将芯片架300和墨盒芯片200一起更换,节省更换成本。
本实施例中,将墨盒芯片200放置在第一芯片架310和第二芯片架320之间的空间部330之后,可以将第一芯片架310和第二芯片架320卡合;墨盒芯片200可以是软性芯片,优选的材质为FPC材料,此材料具有柔性特征,易于弯曲和变形,因此,可以利用第一芯片架310和第二芯片架320将墨盒芯片200压出第一凹部211和第二凹部221。将芯片架300安装到壳体100之后,第一芯片架310可以位于第二芯片架320的下方,此时,抵接部312可以设置在第一芯片架310的底端,连接杆311可以设置在第二芯片架320的两侧,即连接杆311位于墨盒芯片200与弹性元件500之间,使得墨盒的结构紧凑,有利于增大墨盒内存储的墨水量。
如图51a所示,优选地,第一芯片架310朝向墨盒外的一端的下表面为斜面310a,以在安装墨盒的过程中,引导芯片架300运动。其中,第一芯片架310的厚度由第一芯片架310的朝向墨盒外部的一端开始朝向墨盒内部逐渐增大,进而在第一芯片架310朝向墨盒外的一端的下表面形成斜面310a。在墨盒沿安装方向P将墨盒安装至安装部200的过程中,斜面310a接触到安装部200或者第二组触针422时,可以引导第二组触针422向远离墨盒芯片200的方向移动或者引导芯片架300与墨盒芯片200形成的接合体向远离第二组触针422的方向移动,故斜面310a在墨盒安装过程中起导向作用。
本实施例中,第一芯片架310可以包括第一支架本体310b和第一凸棱310c,第一凸棱310c设置在第一支架本体310b朝向墨盒外部的一端;第二芯片架320可以包括第二支架本体320a和第二凸棱320b,第二凸棱320b设置在第二支架本体320a朝向墨盒外部的一端。其中,相邻的两个第一凸棱310c之间的空间用于暴露墨盒芯片200的接触部,相邻的两个第二凸棱320b之间的空间也用于暴露墨盒芯片200的接触部。
其中,还可以取消第一芯片架310上的第一凸棱310c和/或第二芯片架320上的第二凸棱320b;或者减少第一芯片架310上的第一凸棱310c和/或第二芯片架320上的第二凸棱320b的数量,以简化300芯片架的加
工工艺。如图51b所示,第二芯片架320仅包括第二支架本体320a;如图51c所示,在减小第二芯片架320上的第二凸棱320b的同时,增加第二支架本体320a的长度,以使墨盒芯片200的安装牢固可靠;如图51d所示,第一芯片架310仅包括第一支架本体310b,此时,也可以相应地增加第一支架本体310b的长度;如图51e所示,第一芯片架310可以包括第一支架本体310b和一个第一凸棱310c;如图51f所示,第二芯片架320仅包括第二支架本体320a,第一芯片架310仅包括第一支架本体310b,此时,可以相应地增加第一支架本体310b和/或第二支架本体320a的长度。
较佳地,第一芯片架310的两侧分别设有固定部314,第二芯片架320的两侧分别设有卡爪322,卡爪322用于与固定部314卡合,从而将墨盒芯片200固定夹设在第一芯片架310和第二芯片架320之间。本实施例的卡合结构较简单,加工工艺也较简单,且便于操作。
为了将墨盒芯片200稳固地固定在芯片架300上,避免墨盒芯片200相对于芯片架300发生位移,进一步地,第一芯片架310上设有固定柱313,墨盒芯片200上开设有第一定位孔230,第二芯片架320上开设有第二定位孔321,第一定位孔230及第二定位孔321用于供固定柱313穿过。其中,固定柱313的个数可以为一个或者多个;本实施例对于固定柱313的个数不做具体限定,本领域技术人员可以根据实际需要进行设置。
为了进一步将墨盒芯片200稳固地固定在芯片架300上,避免墨盒芯片200相对于芯片架300转动,墨盒芯片200的两侧分别设有定位凹槽240,第一芯片架310上设有与凹槽配合的定位凸起315。墨盒芯片200的两侧可以分别设置有一个或者多个定位凹槽240,本实施例对于定位凹槽240的个数不做具体限定,本领域技术人员可以根据实际需要进行设置。
进一步地,容纳部130包括第一容纳部131和第二容纳部132,第二容纳部132设置在第一容纳部131的上方,第一容纳部131用于容纳芯片架300及墨盒芯片200形成的接合体朝向墨盒外的前端侧,第二容纳部132用于容纳芯片架300及墨盒芯片200形成的接合体朝向墨盒内的后端侧。其中,安装槽122可以设置在第一容纳部131和第二容纳部132之间;第一容纳部131和第二容纳部132可以连通设置。
进一步地,容纳部130上方还设有限制部140,第二容纳部132设置
在限制部140内侧,限制部140用于芯片架300及墨盒芯片200形成的接合体的后端侧向上运动。需要说明的是:限制部140主要用于在芯片架300位于安装槽122的顶端时,限制芯片架300继续向上运动,避免对芯片架300及其周围部件造成损坏。
进一步地,壳体100包括:第一壳体110及与第一壳体110连接的第二壳体120,芯片架300可转动地安装在第二壳体120上,第二壳体120上设有容纳部130及出墨口121。第一壳体110和第二壳体120可以卡接或者过盈配合;或者第一壳体110和第二壳体120一体成型。此外,限制部140、安装槽122也设置在第二壳体120上。
进一步地,安装槽122的长度方向与墨盒安装到容纳结构400的方向之间具有预设夹角,其中,本实施例对于预设夹角的具体值不做具体限定,本领域技术人员可以根据实际需要进行设置。较佳地,安装槽122的底端背离容纳结构400延伸,朝向墨盒的内部延伸,以减少容纳部130占用的空间。在墨盒未安装至容纳结构400时,芯片架300可以位于安装槽122的顶端。
本实施例中,当墨盒沿安装方向P安装到容纳结构400,墨盒与容纳结构400的相对位置发生变化的过程中,首先墨盒芯片200与第二组触针422相接触,墨盒芯片200与第二组触针422的山脊形凸起420a接触相互之间有力的作用,墨盒芯片200将受到的作用力传给芯片架300,芯片架300的连接杆311沿安装槽122的槽壁运动,墨盒芯片200也随之运动;第二组触针422则以整根触针420最上端为支点转动(-Q方向转动),待墨盒芯片200划过第二组触针422的山脊形凸起420a后,到达第一组触针421和第二组触针422之间时,第二组触针422恢复到原位,墨盒芯片200同时与第一组触针421和第二组触针422相接触,连接杆311可以滑动至安装槽122的中间位置或者其它位置,此时墨盒芯片200受到容纳结构400给予的沿方向Q的力F1。
当墨盒沿安装方向P相反方向-P从容纳结构400中取出时,墨盒与容纳结构400的相对位置发生变化,在此过程中,触针420不具有向Q方向转动的能力,首先,当墨盒芯片200欲离开第一组触针421与第二组触针422之间时,第二组触针422会给予墨盒芯片200一个斜下方的力F2;墨
盒芯片200受到的力F2传输给芯片架300,芯片架300在F2力的作用下,以连接杆311为轴线转动且移动,墨盒芯片200上的端子沿方向P移动,芯片架300及墨盒芯片200进入到容纳部130,从而避免对容纳结构400的触针420的损坏;其中,若第二组触针422给予墨盒芯片200的力F2沿安装槽122的延伸方向的分向力的数值(安装槽122的延伸方向即墨盒芯片200相对于壳体100的移动方向),大于弹性元件500的弹力在该方向的分向力的数值时,芯片架300朝向安装槽122的顶端移动;若第二组触针422给予墨盒芯片200的力F2沿安装槽122的延伸方向的分向力的数值,小于于弹性元件500的弹力在该方向的分向力的数值时,芯片架300朝向安装槽122的底端移动。
壳体100上具有平行于墨盒安装到容纳结构400的安装方向P的第一相对面100a和第二相对面100b,本实施例中的移动是指墨盒芯片200与芯片架300形成的接合体在第一相对面100a和/或第二相对面100b上产生了距离位移。例如:壳体100上的第一相对面100a和第二相对面100b作为支撑墨盒芯片200的支撑面,本实施例中的移动指的是接合体在前述支撑面上产生了距离位移。从图49可知,第一相对面100a和第二相对面100b上设置有安装槽122,安装槽122用于安装连接杆311。
可以理解的是:墨盒继续运动直到墨盒芯片200划过第二组触针422的山脊形凸起420a后,芯片架300不在受到使其转动的力,芯片架300也不在转动;但是,此时,如果触针420仍然给予墨盒芯片200一个沿方向Q的力,则芯片架300的连接杆311仍不能恢复到安装槽122的顶端;直到容纳结构400不在给予墨盒芯片力的作用,墨盒芯片200和芯片架300在弹性元件500的作用下恢复到原位。
在上述实施例的基础上,继续参考附图54-56c,本实施例与上述实施例的不同之处在于,安装槽122的结构不同。除特殊说明外,本实施例所采用的墨盒与实施例一相同。
具体地,安装槽122的供连接杆311移动的槽壁与墨盒的安装方向P垂直;其中,安装通道123与安装槽122的前端侧连通。在墨盒未安装至容纳结构400时,芯片架300可以位于安装槽122朝向容纳结构400的后端侧。限制部140用于在芯片架300位于安装槽122的后端侧时,限制芯
片架300向上运动,进而保证墨盒的顺利取放。
进一步地,为了便于芯片架300的装配及取换,壳体100上还设有安装通道123,安装通道123可以设置在第二壳体120上;安装通道123的一端与安装槽122连通,安装通道123的另一端具有连通壳体外的空间的开口。较佳地,安装通道123与安装槽122的底端连通;或者安装通道123与安装槽122的前端侧连通。
本实施例提供的墨盒的装配方法可以包括以下步骤:
步骤1、将墨盒芯片200安装在第一芯片架310和第二芯片架320之间,并将第一芯片架310与第二芯片架320卡合;
步骤2、将弹性元件500安装在壳体100上;其中,步骤1与步骤2的执行顺序不分先后;
步骤3、沿安装通道123,将第一芯片架310的连接杆311安装到、连接杆311能够沿槽壁移动且能够以连接杆311为轴线转动的安装槽122内,且使弹性元件500与第一芯片架310上的抵接部312相抵接。
进一步的,继续参考附图57-59b,其中,附图中的-P表示与墨盒的安装方向P相反的方向。当墨盒沿安装方向P安装到容纳结构400,墨盒与容纳结构400的相对位置发生变化的过程中,首先墨盒芯片200与第二组触针422相接触,如图57所示,墨盒芯片200与第二组触针422的山脊形凸起420a接触相互之间有力的作用,墨盒芯片200将受到的作用力传给芯片架300,芯片架300的连接杆311沿安装槽122的槽壁运动,墨盒芯片200也随之运动;第二组触针422则以整根触针420最上端为支点转动(-Q方向转动),待墨盒芯片200划过第二组触针422的山脊形凸起420a后,到达第一组触针421和第二组触针422之间时,如图15a-15b所示,第二组触针422恢复到原位,墨盒芯片200同时与第一组触针421和第二组触针422相接触,连接杆311可以滑动至安装槽122的中间位置或者其它位置,此时墨盒芯片200受到容纳结构400给予的沿方向Q的力F1。
当墨盒沿安装方向P相反方向-P从容纳结构400中取出时,墨盒与容纳结构400的相对位置发生变化,在此过程中,触针420不具有向Q方向转动的能力,首先,当墨盒芯片200欲离开第一组触针421与第二组触针422之间时,如图58a-58b所示,第二组触针422会给予墨盒芯片200一
个斜下方的力F2;墨盒芯片200受到的力F2传输给芯片架300,芯片架300在F2力的作用下,以连接杆311为轴线转动且移动,墨盒芯片200上的端子沿方向P移动,芯片架300及墨盒芯片200进入到容纳部130,从而避免对容纳结构400的触针420的损坏;其中,若力F2方向Q的分向力的数值大于弹性元件500的弹力在该方向的分向力的数值时,芯片架300朝向安装槽122的前端侧移动;若力F2方向Q的分向力的数值小于弹性元件500的弹力在该方向的分向力的数值时,芯片架300朝向安装槽122的后端侧滑动。
可以理解的是:墨盒继续运动直到墨盒芯片200划过第二组触针422的山脊形凸起420a后,芯片架300不在受到使其转动的力,芯片架300也不在转动;但是,此时,如果触针420仍然给予墨盒芯片200沿方向Q的力,则芯片架300的连接杆311仍不能恢复到安装槽122的后端侧,直到容纳结构400不在给予墨盒芯片力的作用,墨盒芯片200和芯片架300恢复到原位。
进一步的,在上述实施例的基础上,继续参考附图60,可以理解的是:在墨盒中,对于实施例一和实施例二中未做说明的结构,本领域技术人员可以根据实际需要进行设置。如图60所示,墨盒具有壳体100、墨盒芯片200、芯片架300等等。墨盒芯片200与芯片架300形成的接合体相对于墨盒底面100c来说倾斜设置。同样的,安装部内的触针也是倾斜设置的。墨盒芯片200与芯片架300形成的接合体沿方向Q安装到壳体100中,该安装过程可以与前述实施例类似。
将本实施例的墨盒安装到安装部(本实施例墨盒所使用的安装部尚未示出)的过程中,首先将第一卡位101安装到安装部上,然后,转动设置有墨盒芯片200的侧部,最终使得第二卡位102安装到安装部上。其中,在将墨盒安装到安装部的过程中,首先墨盒芯片200与安装部上的触针相接触,墨盒芯片与触针接触的过程中相互之间有力的作用,墨盒芯片200将受到的作用力传给芯片架300,芯片架300的连接杆311沿安装槽122的槽壁移动且转动,墨盒芯片200也随之运动;待墨盒芯片200划过触针4后,到达安装部的两组触针之间时,墨盒芯片200同时与两组触针相接触,此时,连接杆311可以滑动至安装槽122的中间位置或者其它位置。
最后应说明的是:以上各实施例仅用以说明本发明的技术方案,而非对其限制;尽管参照前述各实施例对本发明进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分或者全部技术特征进行等同替换;而这些修改或者替换,并不使相应技术方案的本质脱离本发明各实施例技术方案的范围。
Claims (42)
- 一种墨盒芯片,所述墨盒芯片用于与安装部内的触针电连接,其特征在于,所述墨盒芯片上设置有容纳槽,所述容纳槽内设置有用于与所述触针相接触的接触部。
- 根据权利要求1所述的墨盒芯片,其特征在于,所述容纳槽用于容纳触针,且所述接触部包括设置于所述容纳槽内的至少两个内接触部。
- 根据权利要求2所述的墨盒芯片,其特征在于,所述内接触部中的两个内接触部相对立设置。
- 根据权利要求2所述的墨盒芯片,其特征在于,所述墨盒芯片上设置有至少一个所述容纳槽。
- 根据权利要求4所述的墨盒芯片,其特征在于,所述墨盒芯片包括:第一平面和与所述第一平面垂直相交的第三平面,所述第一平面的表面积小于所述第三平面的表面积;所述第一平面上设置有至少一个所述容纳槽,且设置于所述容纳槽内的每个所述内接触部均与所述第一平面呈一预设角度;所述内接触部位于所述容纳槽内的与所述第一平面相交的槽端面上。
- 根据权利要求5所述的墨盒芯片,其特征在于,所述第一平面上设置有容纳槽和用于与所述触针相接触的外接触部。
- 根据权利要求3-6中任意一项所述的墨盒芯片,其特征在于,所述容纳槽的宽度尺寸沿远离第一平面的方向逐渐变小。
- 根据权利要求6所述的墨盒芯片,其特征在于,所述第一平面上位于多个所述容纳槽的一侧端还设置有侧边槽,所述侧边槽内设置有一用于与所述触针相接触的侧接触部。
- 根据权利要求5-6、8中任意一项所述的墨盒芯片,其特征在于,所述预设角度为90°。
- 根据权利要求2-6中任意一项所述的墨盒芯片,其特征在于,所述墨盒芯片包括:第一连接部和与所述第一连接部相连接的第二连接部,所述第二连接部上折叠形成有至少一个所述容纳槽。
- 根据权利要求1所述的墨盒芯片,其特征在于,所述容纳槽包括:设置于所述墨盒芯片上的多个平滑连接的第一凹部和多个平滑连接的第二凹部,所述第一凹部设置于所述墨盒芯片的第一表面上,所述第二凹部设置于 所述墨盒芯片的第二表面上,所述第一凹部朝向所述第二表面的方向凹陷,所述第二凹部朝向所述第一表面的方向凹陷,且所述第一凹部和所述第二凹部内均设置有用于与所述触针相接触的接触部。
- 根据权利要求11所述的墨盒芯片,其特征在于,所述多个第一凹部构成第一波浪形结构;所述多个第二凹部构成一与所述第一波浪形结构相平行的第二波浪形结构。
- 根据权利要求12所述的墨盒芯片,其特征在于,所述第一凹部与所述第二凹部沿垂直于墨盒芯片安装到所述安装部的方向上相互间隔设置。
- 根据权利要求13所述的墨盒芯片,其特征在于,所述触针包括上触针和下触针;所述接触部包括:用于与上触针相接触的上接触部和用于与下触针相接触的下接触部,所述上接触部设置于所述第一凹部内,所述下接触部设置于所述第二凹部内。
- 根据权利要求14所述的墨盒芯片,其特征在于,所述上接触部设置于所述第一凹部靠近所述第二表面的位置,所述下接触部设置于所述第二凹部靠近所述第一表面的位置。
- 根据权利要求14所述的墨盒芯片,其特征在于,所述墨盒芯片在自然状态下形成所述第一凹部和所述第二凹部。
- 一种可拆卸的安装于安装部上的墨盒,其特征在于,包括:权利要求1-16中任意一项所述的墨盒芯片,所述墨盒芯片用于与所述安装部的触针相接合。
- 根据权利要求17所述的墨盒,其特征在于,所述墨盒包括墨盒主体,所述墨盒芯片安装在所述墨盒主体上;所述墨盒主体还包括:出墨口、底面和侧面,所述出墨口设置在所述底面上所述侧面上安装有所述墨盒芯片,所述墨盒芯片上的接触部突出于所述侧面且至少一个所述接触部垂直于所述侧面。
- 根据权利要求17所述的墨盒,其特征在于,所述墨盒用于可拆卸的安装到安装部内,所述安装部包括多个触针,所述多个触针在垂直于所述墨盒安装到所述安装部内的安装方向上呈两排排列;所述墨盒芯片上的内接触部在垂直于所述墨盒安装到所述安装部内的安装方向上呈一排排列。
- 根据权利要求17所述的墨盒,其特征在于,所述安装部包括:设置 有供墨部的底壁、垂直于所述底壁的侧壁,所述触针设置在所述侧壁上;所述墨盒包括:用于与供墨部相接合的出墨口,所述墨盒芯片上设置有用于与所述触针相电连接的接触端子,所述接触端子上设置有用于与所述触针相接触的接触面,所述接触面位于基本垂直于所述侧壁的方向上,并且沿垂直于所述接触面的方向观察时,所述墨盒芯片与出墨口中心线之间具有间隔空间。
- 根据权利要求20所述的墨盒,其特征在于,所述安装部上设置有一用于供所述墨盒芯片沿安装方向安装到所述安装部内的开口,所述侧壁平行于所述安装方向。
- 根据权利要求20所述的墨盒,其特征在于,所述出墨口中心线与所述安装方向平行,所述墨盒芯片包括:垂直于所述安装方向的主表面与所述主表面垂直连接的侧表面,所述主表面的表面积大于所述侧表面的表面积,所述出墨口中心线与所述主表面相垂直。
- 根据权利要求17所述的墨盒,其特征在于,所述墨盒用于安装在包括多组触针和供墨部的安装部上;所述墨盒具有壳体,所述壳体具有侧部和内部;所述墨盒芯片安装于所述墨盒的壳体的侧部,所述墨盒芯片能够相对于所述壳体朝向所述墨盒内部移动,所述壳体上还设有容纳部,所述容纳部用于容纳所述墨盒芯片。
- 根据权利要求17所述的墨盒,其特征在于,所述墨盒用于安装在包括多组触针和供墨部的安装部上;所述墨盒具有侧部和内部;所述墨盒的壳体的侧部安装有墨盒芯片,所述墨盒芯片能够相对于所述壳体朝向所述墨盒内部转动且移动,所述壳体上还设有容纳部,所述容纳部用于容纳所述墨盒芯片。
- 根据权利要求23或24所述的墨盒,其特征在于,所述墨盒芯片包括用于与所述多组触针相接触的端子,所述端子包括设置在所述墨盒芯片的第一表面上的上端子和设置在与第一表面相对的第二表面上的下端子,当所述墨盒安装到所述安装部上时,在垂直于所述墨盒安装到所述安装部的方向上,所述上端子和所述下端子相互交叉的设置在所述墨盒芯片上。
- 根据权利要求25所述的墨盒,其特征在于,所述多组触针包括第一组触针和第二组触针,当所述墨盒安装到所述安装部上时,所述端子 的至少一部分插入到所述第一组触针和所述第二组触针之间。
- 根据权利要求26所述的墨盒,其特征在于,所述墨盒芯片还包括第一凹部和第二凹部,所述第一凹部和所述第二凹部在垂直于所述墨盒安装到所述安装部的方向上相互交叉设置,且所述上端子设置在所述第一凹部内,所述下端子设置在所述第二凹部内。
- 根据权利要求23或24所述的墨盒,其特征在于,所述墨盒芯片安装在芯片架上,所述芯片架安装在所述壳体的侧部;所述容纳部还用于容纳所述芯片架;其中,所述芯片架能够相对于所述壳体移动;或者,所述芯片架能够相对于所述壳体转动且移动。
- 根据权利要求28所述的墨盒,其特征在于,所述芯片架上设有抵接部,所述抵接部与所述壳体之间夹设有弹性元件。
- 根据权利要求28所述的墨盒,其特征在于,所述芯片架的两侧设有连接杆,所述壳体上开设有安装槽,所述连接杆插设在所述安装槽中;其中,所述安装槽的用于支撑所述连接杆移动的槽壁具有在垂直于所述墨盒的安装方向且朝向所述墨盒内部的方向上的投影距离。
- 根据权利要求30所述的墨盒,其特征在于,所述安装槽在垂直所述连接杆的轴向上的第一投影面积大于所述连接杆在垂直所述连接杆的轴向上的第二投影面积。
- 根据权利要求30所述的墨盒,其特征在于,所述连接杆能够在所述安装槽中转动且沿所述安装槽的所述槽壁的延伸方向移动。
- 根据权利要求30所述的墨盒,其特征在于,所述安装槽的用于支撑所述连接杆移动的所述槽壁与所述墨盒的安装方向之间具有预设夹角,且所述安装槽的底端朝向所述墨盒的内部延伸。
- 根据权利要求30所述的墨盒,其特征在于,所述安装槽的供所述连接杆移动的所述槽壁与所述墨盒的安装方向垂直。
- 根据权利要求30-34任一所述的墨盒,其特征在于,所述芯片架和所述墨盒芯片形成接合体,在所述墨盒与所述安装部相分离过程中,所述接合体转动且在垂直于所述墨盒安装到所述安装部的安装方向且朝向所述墨盒内部的方向上形成有位移。
- 根据权利要求33或34所述的墨盒,其特征在于,所述壳体上还 设有安装通道,所述安装通道的一端与所述安装槽连通,所述安装通道的另一端具有连通所述壳体外的空间的开口。
- 根据权利要求30所述的墨盒,其特征在于,所述连接杆位于所述墨盒芯片与弹性元件之间。
- 根据权利要求37所述的墨盒,其特征在于,所述芯片架中的第一芯片架设置在所述芯片架中的第二芯片架下方,且所述第一芯片架朝向所述墨盒外的一端的下表面为斜面。
- 根据权利要求28所述的墨盒,其特征在于,所述容纳部包括第一容纳部和第二容纳部,所述第二容纳部设置在第一容纳部的上方,所述第一容纳部用于容纳所述芯片架及墨盒芯片形成的接合体朝向所述墨盒外的前端侧,所述第二容纳部用于容纳所述芯片架及墨盒芯片形成的接合体朝向所述墨盒内的后端侧所述容纳部上方还设有限制部,所述第二容纳部设置在所述限制部内侧,所述限制部用于限制所述芯片架及所述墨盒芯片形成的接合体的所述后端侧向上运动。
- 根据权利要求23-39中任一项所述的墨盒,其特征在于,所述墨盒安装到所述安装部的过程中,所述墨盒芯片在垂直于所述墨盒安装到所述安装部的安装方向,且朝向所述墨盒内部的方向上形成有位移;或者,所述墨盒与所述安装部相分离的过程中,所述墨盒芯片在垂直于所述墨盒安装到所述安装部的安装方向,且朝向所述墨盒内部的方向上形成有位移且可转动。
- 一种可安装于安装部上的墨盒,其特征在于,包括:权利要求1-10中任意一项所述的墨盒芯片。
- 一种可安装于安装部上的墨盒,其特征在于,包括:权利要求11-16中任意一项所述的墨盒芯片。
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109581839A (zh) * | 2019-01-29 | 2019-04-05 | 珠海天威飞马打印耗材有限公司 | 芯片接触组件及耗材容器 |
CN110936723A (zh) * | 2019-06-28 | 2020-03-31 | 珠海纳思达企业管理有限公司 | 墨盒 |
JP2020123288A (ja) * | 2019-01-31 | 2020-08-13 | ブラザー工業株式会社 | Icチップホルダ |
US20220095459A1 (en) * | 2020-09-23 | 2022-03-24 | Ricoh Company, Ltd. | Circuit board unit, detachable unit, and image forming apparatus |
JP2022527142A (ja) * | 2019-06-28 | 2022-05-30 | ジュハイ ナインスター マネージメント カンパニー リミテッド | インク容器のチップ及びインク容器 |
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103101317A (zh) * | 2012-12-17 | 2013-05-15 | 珠海艾派克微电子有限公司 | 一种用于打印机上的墨盒芯片及包含该芯片的墨盒 |
CN203666132U (zh) * | 2013-12-23 | 2014-06-25 | 珠海纳思达企业管理有限公司 | 一种墨盒 |
CN104260555A (zh) * | 2014-09-25 | 2015-01-07 | 珠海天威飞马打印耗材有限公司 | 耗材芯片和耗材容器 |
JP2015136815A (ja) * | 2014-01-21 | 2015-07-30 | エステー産業株式会社 | インクカートリッジ及びチップ |
CN104972764A (zh) * | 2014-04-01 | 2015-10-14 | 精工爱普生株式会社 | 液体容纳容器 |
CN206012027U (zh) * | 2016-08-12 | 2017-03-15 | 珠海纳思达企业管理有限公司 | 墨盒芯片及墨盒 |
CN206154912U (zh) * | 2016-08-12 | 2017-05-10 | 珠海纳思达企业管理有限公司 | 墨盒芯片及墨盒 |
CN206170874U (zh) * | 2016-11-16 | 2017-05-17 | 珠海纳思达企业管理有限公司 | 墨盒 |
Family Cites Families (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3667284B2 (ja) * | 2001-02-09 | 2005-07-06 | キヤノン株式会社 | 液体収納容器および記録装置 |
CA2371040A1 (en) * | 2001-02-09 | 2002-08-09 | Nobuyuki Hatasa | Liquid container and recording apparatus |
JP2007237657A (ja) * | 2006-03-10 | 2007-09-20 | Seiko Epson Corp | 液体収容容器 |
US9079434B2 (en) * | 2011-09-30 | 2015-07-14 | Brother Kogyo Kabushiki Kaisha | Circuit board unit, cartridge, and manufacturing method thereof |
JP5929167B2 (ja) * | 2011-12-22 | 2016-06-01 | ブラザー工業株式会社 | 印刷流体カートリッジ |
US8708469B2 (en) * | 2012-01-12 | 2014-04-29 | Seiko Epson Corporation | Cartridge and printing material supply system |
JP2013163364A (ja) * | 2012-01-12 | 2013-08-22 | Seiko Epson Corp | カートリッジ、及び、印刷材供給システム |
JP6085922B2 (ja) * | 2012-09-13 | 2017-03-01 | 株式会社リコー | 液体カートリッジ及び画像形成装置 |
CN104163043B (zh) * | 2013-05-17 | 2016-08-24 | 珠海纳思达企业管理有限公司 | 墨盒芯片、墨盒及结构体 |
JP6303349B2 (ja) * | 2013-09-17 | 2018-04-04 | 株式会社リコー | 液体カートリッジ及び画像形成装置 |
JP6528564B2 (ja) * | 2014-08-29 | 2019-06-12 | セイコーエプソン株式会社 | 液体供給ユニット |
-
2017
- 2017-07-20 WO PCT/CN2017/093750 patent/WO2018028411A1/zh unknown
- 2017-07-20 JP JP2019502218A patent/JP6709321B2/ja active Active
- 2017-07-20 EP EP17838541.5A patent/EP3498477B1/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103101317A (zh) * | 2012-12-17 | 2013-05-15 | 珠海艾派克微电子有限公司 | 一种用于打印机上的墨盒芯片及包含该芯片的墨盒 |
CN203666132U (zh) * | 2013-12-23 | 2014-06-25 | 珠海纳思达企业管理有限公司 | 一种墨盒 |
JP2015136815A (ja) * | 2014-01-21 | 2015-07-30 | エステー産業株式会社 | インクカートリッジ及びチップ |
CN104972764A (zh) * | 2014-04-01 | 2015-10-14 | 精工爱普生株式会社 | 液体容纳容器 |
CN104260555A (zh) * | 2014-09-25 | 2015-01-07 | 珠海天威飞马打印耗材有限公司 | 耗材芯片和耗材容器 |
CN206012027U (zh) * | 2016-08-12 | 2017-03-15 | 珠海纳思达企业管理有限公司 | 墨盒芯片及墨盒 |
CN206154912U (zh) * | 2016-08-12 | 2017-05-10 | 珠海纳思达企业管理有限公司 | 墨盒芯片及墨盒 |
CN206170874U (zh) * | 2016-11-16 | 2017-05-17 | 珠海纳思达企业管理有限公司 | 墨盒 |
Non-Patent Citations (1)
Title |
---|
See also references of EP3498477A4 * |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109581839A (zh) * | 2019-01-29 | 2019-04-05 | 珠海天威飞马打印耗材有限公司 | 芯片接触组件及耗材容器 |
CN109581839B (zh) * | 2019-01-29 | 2024-05-10 | 珠海天威飞马打印耗材有限公司 | 芯片接触组件及耗材容器 |
JP2020123288A (ja) * | 2019-01-31 | 2020-08-13 | ブラザー工業株式会社 | Icチップホルダ |
JP7111009B2 (ja) | 2019-01-31 | 2022-08-02 | ブラザー工業株式会社 | Icチップホルダ |
US11499991B2 (en) | 2019-01-31 | 2022-11-15 | Brother Kogyo Kabushiki Kaisha | IC chip holder |
US11982687B2 (en) | 2019-01-31 | 2024-05-14 | Brother Kogyo Kabushiki Kaisha | IC chip holder |
CN110936723A (zh) * | 2019-06-28 | 2020-03-31 | 珠海纳思达企业管理有限公司 | 墨盒 |
CN110936723B (zh) * | 2019-06-28 | 2021-04-06 | 珠海纳思达企业管理有限公司 | 墨盒 |
JP2022527142A (ja) * | 2019-06-28 | 2022-05-30 | ジュハイ ナインスター マネージメント カンパニー リミテッド | インク容器のチップ及びインク容器 |
JP7256331B2 (ja) | 2019-06-28 | 2023-04-11 | ジュハイ ナインスター マネージメント カンパニー リミテッド | インク容器のチップ及びインク容器 |
US20220095459A1 (en) * | 2020-09-23 | 2022-03-24 | Ricoh Company, Ltd. | Circuit board unit, detachable unit, and image forming apparatus |
CN114789612A (zh) * | 2021-01-26 | 2022-07-26 | 杭州旗捷科技有限公司 | 连接件、芯片模块、盒体、墨盒及墨囊 |
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EP3498477A4 (en) | 2020-04-22 |
JP6709321B2 (ja) | 2020-06-10 |
JP2019521889A (ja) | 2019-08-08 |
EP3498477B1 (en) | 2021-05-12 |
EP3498477A1 (en) | 2019-06-19 |
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