CN113580773A - Ink box after capacity expansion - Google Patents

Abstract

The invention relates to an expanded ink box which is detachably installed in an ink-jet printer and comprises an existing ink box and an external body, wherein the existing ink box is used for containing ink, the existing ink box comprises an ink outlet and an air inlet, the ink outlet is used for being combined with the ink-jet printer, the air inlet is used for exchanging air with the outside, the ink outlet and the air inlet are both arranged on a front side plate of the existing ink box, an air outlet and an ink inlet are arranged on a rear side plate behind the existing ink box, the air outlet is used for enabling air entering the cavity of the existing ink box through the air inlet to flow out to the external body, the ink inlet is used for enabling the ink in the external body to flow into the cavity of the existing ink box after the air enters the cavity of the external body from the cavity of the existing ink box, and the arrangement can enable the ink in the external body to be consumed as far as possible, preventing waste.

Description

Ink box after capacity expansion

The invention is a divisional application of invention patent applications with application number of 201910159034.8, application date of 2019, 3 and 4, and name of ink box and its capacity expansion method.

Technical Field

The present invention relates to the field of inkjet imaging, and more particularly, to an ink cartridge detachably mountable in an inkjet printer.

Background

The ink box is a necessary consumable in the ink-jet printer, and in order to meet the requirements of different customers, ink-jet printer manufacturers can consider that the same type of printer can be suitable for the ink boxes with two different capacity types in the design stage, and the ink boxes with the two types are only different in size.

For the ink cartridge compatible manufacturer, it is necessary to prepare the empty cases of the two types of ink cartridges at the same time, which will undoubtedly increase the manufacturing cost of the compatible manufacturer.

For the regeneration ink box, the ink box with a smaller model number has more empty cases due to the small amount of ink contained in the ink box, and the ink box with a large model number has less empty cases, so that the ink box regeneration manufacturer cannot meet the requirement of the regeneration ink box with the large model number on the market because the regeneration ink box with the large model number cannot collect enough empty cases with the large capacity model number.

Disclosure of Invention

The invention provides an ink box after expansion, which expands the capacity of the existing ink box with small capacity according to the empty shell of the ink box with small capacity, and finally forms the ink box with large capacity.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an ink horn after dilatation, detachably installs in ink jet printer, including current ink horn and the external body that is used for holding the ink, current ink horn is including being used for carrying out the air inlet of atmosphere exchange with the ink outlet that combines with ink jet printer and with the outside, ink outlet with the air inlet all is set up the preceding curb plate of current ink horn, a serial communication port, be provided with gas outflow and ink flow inlet on the posterior lateral plate at the rear of current ink horn, wherein, gas outflow is used for making and gets into through the air inlet air outflow in the current ink horn cavity extremely external body, the ink flow inlet is used for following the air cavity of current ink horn gets into behind the cavity of external body, make ink in the external body flows in the cavity of current ink horn.

The existing ink box is an ink box which has been consumed up with ink; the external body is detachably combined with the existing ink cartridge, and

after the ink is consumed, the external body can be replaced.

The ink inlet is provided close to a lower side plate of the conventional ink cartridge.

And the front panel of the external body is provided with a gas inflow pipe combined with the gas outflow port and an ink outflow pipe combined with the ink inflow port.

The gas flow outlet is located above the ink flow inlet.

The external body and the existing ink box have the same size in the vertical direction.

The expanded ink cartridge includes a self-sealing member for sealing the gas outlet or the ink inlet, and the self-sealing member automatically seals the gas inlet or the ink outlet after the gas inlet or the ink outlet is separated from the gas outlet or the ink inlet, respectively.

The external body is abutted against the rear side plate of the existing ink box, and the rear side plate of the existing ink box is tightly attached to the front panel of the external part.

The ink box and the external body are combined through a combination part, and the position of the combination part is not positioned on the gas outlet and the ink inlet.

After adopting above-mentioned technical scheme, beneficial effect is:

the existing ink box before modification is expanded into an ink box with larger capacity, or the newly injection-molded ink box is expanded into an ink box with larger capacity, and the arrangement can ensure that the ink in the external body is consumed as far as possible, thereby preventing waste.

Drawings

Fig. 1A and 1B are perspective views of a cartridge before remanufacturing of a small-capacity type ink according to the present invention.

Fig. 2A is a perspective view of a small-capacity type ink cartridge according to the present invention with a part cut away.

Fig. 2B is a perspective view of a modified small-capacity type ink cartridge according to the present invention.

Fig. 3A and 3B are perspective views of the external body according to the present invention.

Fig. 4 is a schematic view showing a state where the modified small-capacity type ink cartridge is combined with the external unit.

Fig. 5 is a perspective view of the modified small capacity type ink cartridge combined with an external unit.

Detailed Description

The embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in general, the empty case of the small-capacity ink cartridge used for expanding the small-capacity ink cartridge into the large-capacity ink cartridge may be an empty case of an ink cartridge which has been consumed by a recovery method, or may be a new empty case of an ink cartridge obtained by an injection molding method.

According to the method described below, the empty case of the small-capacity ink cartridge is first modified, and then the modified empty case of the small-capacity ink cartridge is combined with the external body. For clarity of description, the empty case of the small-capacity ink cartridge before modification is C0, the empty case of the small-capacity ink cartridge after modification is C1, the external body is C2, and the ink cartridge after expansion is C.

The realization can be realized, if the empty shell of the ink box is obtained by adopting an injection molding mode, the empty shell C0 of the small-capacity ink box before modification can be directly injected; the modified empty shell C1 of the small-capacity ink box can also be directly injected and molded from the aspects of saving the working procedure and reducing the process cost.

In practice, manufacturers of compatible ink cartridges can obtain more empty cases of the used small-capacity ink cartridges, and the empty cases of the used small-capacity ink cartridges are used as the empty cases C0 of the ink cartridges before modification, and for the sake of simplicity, the empty cases of the ink cartridges are simply referred to as ink cartridges hereinafter.

[ Structure of the front ink Cartridge to be remanufactured ]

Fig. 1A and 1B are perspective views of a small-capacity type ink cartridge according to the present invention before modification. As shown in the figure, the ink cartridge C0 before modification has a regular polygonal shape as a whole, the polygonal shape encloses to form a cavity for containing ink, and the ink cartridge C0 is provided with anink outlet 11 for combining with an ink jet printer and an air inlet 12 for exchanging atmosphere with the outside; the side where theink outlet 11 is located is defined as the front side and the side opposite to the front side as the rear side with respect to the state after the ink cartridge C0 is mounted, and when viewed from the rear side to the front side, the left side of the line of sight is the left side, the right side of the line of sight is the right side, the upper side of the line of sight is the upper side, and the lower side of the line of sight is the lower side.

The ink cartridge C0 includes afront side plate 10 located at the front, arear side plate 40 located at the rear, anupper side plate 30 located above, and alower side plate 50 located below, in the embodiment of the present invention, theink outlet 11 and the air inlet 12 are both provided in thefront side plate 10; further, the ink cartridge C0 includes atop panel 60 disposed above theupper side panel 30, and a finger-receiving space is formed between thetop panel 60 and theupper side panel 30.

As shown in fig. 1A, a closing plate 41 is formed extending upward from therear side plate 40 in the up-down direction of the ink cartridge C0, the closing plate 41 being connected to thetop plate 60 by anarc portion 42, whereby the accommodating space is closed in the front-rear direction of the ink cartridge C0; further, the ink cartridge C0 further includes thefirst support plate 32 provided between thetop plate 60 and theupper side plate 30, and thus, the strength of thetop plate 60 is reinforced; further, with reference to fig. 1A and 1B, alower rib 31 is formed projecting upward from theupper side plate 30, and anupper rib 61 opposite to thelower rib 31 is formed projecting downward from thetop plate 60, theupper rib 61 and thelower rib 31 extending in the front-rear direction of the ink cartridge C0.

Meanwhile, the ink cartridge C0 further includes asecond support plate 62 disposed between theupper rib 61 and thelower rib 31, thefirst support plate 32 intersects thesecond support plate 62, and in the front-rear direction, thesecond support plate 62 partitions the accommodating space into a first space S1 and a second space S2, and the first space S1 is located behind the second space S2, that is, the first space S1 is closer to the closing plate 41; in the left-right direction, thesecond support plate 62 partitions thefirst support plate 32 into aleft support plate 32a and aright support plate 32 b. When the operator is taking the ink cartridge C0, even if the finger slips, due to the arrangement of theleft support plate 32a and theright support plate 32b, the friction force can be increased on the one hand, and on the other hand, the finger can be prevented from slipping farther; of course, even if thesecond support plate 62 is not provided, thefirst support plate 32 may be divided into theleft support plate 32a and theright support plate 32b, bounded by theupper rib 61 or thelower rib 31. Preferably, at least theside 621 of the second supportingplate 62 facing the first space S1 is a curved surface along the front-back direction of the ink cartridge C0, so as to adapt to the shape of fingers and improve the user experience of the operator.

[ method of modifying ink cartridges ]

The remanufacturing method of the ink cartridge C0 is described below with reference to fig. 2A and 2B. FIG. 2A is a perspective view of a small capacity type ink cartridge according to the present invention with a portion cut away; fig. 2B is a perspective view of a modified small-capacity type ink cartridge according to the present invention.

The method for expanding the capacity of the small-capacity ink box C0 is to install an external body C2 (described below) on the existing ink box C0 and communicate the existing ink box C0 cavity with the external body C2 cavity, so that air entering the existing ink box C0 cavity can be exchanged with ink in the external body C2 cavity, and the ink in the external body C2 cavity is supplemented into the existing ink box C0 cavity, thereby achieving the purpose of expanding the capacity of the existing ink box C0 cavity. The existing ink cartridge includes the ink cartridge C0 obtained in a recovery manner and having been depleted of ink, and also includes a new ink cartridge C1 obtained in an injection molding manner.

Specifically, the conventional ink cartridge C0/C1 is provided with a coupling portion, anair flow outlet 43, and anink flow inlet 44, the external unit C2 is provided with a coupled portion, an airflow inlet tube 88, and anink flow outlet 89, the coupling of the coupling portion and the coupled portion allows the coupling of theair flow outlet 43 and the airflow inlet tube 88, and the coupling of theink flow inlet 44 and theink flow outlet 89, and the conventional ink cartridge C0/C1 and the external unit C2 are coupled to a modified ink cartridge C described below.

As shown in fig. 2A, the closing plate 41 is cut away so that the first space S1 forms an opening K in the front-rear direction, and thearc surface 621 faces the opening K, and further, thearc portion 42 is cut away so that the opening K is larger, which is more beneficial to the combination of the external body C2; further, it is also possible to cut out a part of theupper rib 61 or a part of thelower rib 31 so that theupper rib 61 and thelower rib 31 have different lengths in the front-rear direction, and advantageous effects thereof will be described later.

Meanwhile, the ink cartridge C1 has theleft support plate 32a and theright support plate 32b cut away, and as shown in the drawing, theupper rib 61 and thelower rib 31 are supported by thesecond support plate 62, and although the closing plate 41 and thearc portion 42 located at the rear are cut away, the opening K is formed between thetop plate 60 and theupper side plate 30, and thetop plate 60 located near the opening K is no longer supported, however, thesecond support plate 62 functions to support thetop plate 60, and thus, the strength of thetop plate 60 and the ink cartridge C1 can be ensured.

As shown in fig. 2B, at least one of the gas flow-outport 43 and the ink flow-inport 44 is opened on the side where theink outlet 11 is not provided, that is, neither the gas flow-outport 43 nor the ink flow-inport 44 is provided on the same side plate as theink outlet 11, and preferably, the gas flow-outport 43 and the ink flow-inport 44 are provided on the same side plate; more preferably, theair outlet 43 and theink inlet 44 are provided on therear side plate 40, and theair outlet 43 is located between the opening K and theink inlet 44 in the vertical direction, so that the opening direction of the opening K is the same as the opening direction of theair outlet 43 and theink inlet 44.

Thegas outlet 43 and theink inlet 44 are both arranged in a stepped shape, that is, astep surface 431 is formed between thegas outlet 43 and therear side plate 40, and astep surface 441 is also formed between theink inlet 44 and therear side plate 40, wherein thegas outlet 43 is used for enabling the air entering the cavity of the ink cartridge C1 through the air inlet 12 to flow out to the external body C2, and theink inlet 44 is used for enabling the ink in the external body C2 to flow into the cavity of the ink cartridge C1 after the air enters the cavity of the external body C2 from the cavity of the ink cartridge C1.

[ external component ]

Fig. 3A and 3B are perspective views of the external body according to the present invention.

The external unit C2 contains ink for combining with the modified ink cartridge C1 to expand the cavity capacity of the ink cartridge C1. as shown in the figure, the external unit C2 includes anexternal unit 80 and a combinedpart 90 combined with theexternal unit 80, the ink is contained in theexternal unit 80, and the combinedpart 90 is used for combining with a combined part arranged on the ink cartridge C1.

Like the ink cartridge C0 and the ink cartridge C1, the exterior body C2 also has the front, rear, upper, lower, left, and right, and the coupledportion 90 projects forward from thefront panel 81 of theexterior member 80. Theexterior member 80 has the same size in the up-down direction as the ink cartridge C0 and the ink cartridge C1, and thus the ink cartridge C after expansion is substantially flush in the up-down direction (as shown in fig. 5).

Theexterior member 80 includes afront panel 81, arear panel 82, anupper panel 83, alower panel 84, aright panel 85 and acover member 86, wherein thefront panel 81, therear panel 82, theupper panel 83, thelower panel 84 and theright panel 85 enclose an ink storage space S4 with one side open, and thecover member 86 covers the opening, so that the ink storage space S4 can be sealed; preferably, thecover 86 is made of a transparent material, for example, thecover 86 is a transparent PP film, so that an operator can observe whether ink is still in the ink storage space S4 from the outside of thecover 86.

As described above, the coupledportion 90 protrudes forward from thefront panel 81, theexterior member 80 further includes thegas inflow tube 88 and theink outflow tube 89 provided on thefront panel 81, thegas inflow tube 88 is for coupling with thegas outflow port 43 provided on the ink cartridge C1, theink outflow tube 89 is for coupling with theink inflow port 44 provided on the ink cartridge C1, and thegas inflow tube 88 and theink outflow tube 89 protrude forward from thefront panel 81. Also, thegas inflow tube 88 is located between theink outflow tube 89 and the joinedportion 90 in the up-down direction.

Preferably, theink inlet port 44 and theink outlet port 89 are disposed as close as possible to thelower side plate 50 of the ink cartridge C1 and thelower surface plate 84 of theexterior member 80, respectively, however, in consideration of the actual shape of the ink cartridge C1, there is always a certain distance between theink inlet port 44 and thelower side plate 50 in the up-down direction, and therefore theink outlet port 89 is also always a certain distance from thelower surface plate 84. As shown in fig. 3A, theexternal member 80 further includes a partition plate G, which partitions the empty chamber S3 in the ink storage space S4, and theink outflow tube 89 is disposed adjacent to the partition plate G, so as to ensure that all the ink stored in the ink storage space S4 is consumed without waste.

Of course, the partition plate G is not essential, and for example, the size of theexternal member 80 is smaller than that of the ink cartridge C1 in the up-down direction, and the difference in size between the two is the size of the empty chamber S3 in the up-down direction; further, theexternal member 80 further includes aflow guide member 87 provided in the ink storage space S4, and preferably, theflow guide member 87 is a plate-shaped member protruding from theright panel 85 toward the ink storage space S4, and the flow guide member (flow guide plate) 87 is inclined toward theink outflow tube 89 and is not in contact with other portions of theexternal member 80, so that the flow efficiency of the ink in the ink storage space S4 is effectively improved, and the resistance from theflow guide member 87 to the flow of the air and the ink in the ink storage space S4 can be greatly reduced.

As shown in fig. 3B, the joinedportion 90 includes a first joiningrod 91 and a second joiningrod 92 extending forward from thefront panel 81, the first joiningrod 91 and the second joiningrod 92 being parallel to each other and forming a clampingspace 93; when the coupledportion 90 is coupled with the ink cartridge C1 in the front-rear direction, at least one of theupper rib 61 and thelower rib 31 enters the clampingspace 93, thefirst coupling lever 91 and thesecond coupling lever 92 are restricted by thetop plate 60 and theupper side plate 30 in the up-down direction, thefirst coupling lever 91 and thesecond coupling lever 92 are restricted by at least one of theupper rib 61 and thelower rib 31 in the left-right direction, and finally, the position of the exterior body C2 with respect to the ink cartridge C1 is determined.

As for the lengths of theupper rib 61 and thelower rib 31 in the front-rear direction, as described above, the lengths of the two are not uniform, i.e., theupper rib 61 is longer than thelower rib 31 in the front-rear direction, or thelower rib 31 is longer than theupper rib 61, whichever is longer, and the shorter rib can provide a space for the coupledportion 90 to swing in the left-right direction when the coupledportion 90 is coupled with the ink cartridge C1, thereby making the coupling of the external body C2 with the ink cartridge C1 more efficient.

As described above, the ink cartridge C1 needs to be provided with a joint portion capable of being joined to the joinedportion 90, and particularly, in the embodiment of the present invention, the joint portion includes thetop plate 60, theupper side plate 30, and at least one of theupper rib 61 and thelower rib 31, wherein thetop plate 60 and theupper side plate 30 restrict the joinedportion 90 in the up-down direction, and at least one of theupper rib 61 and thelower rib 31 restricts the joinedportion 90 in the left-right direction, that is, when the exterior body C2 is joined to the ink cartridge C1 in the front-back direction, the joint portion includes a member capable of restricting the joinedportion 90 in the up-down direction and the left-right direction; generally, the joint portion includes a member that spatially restricts the joinedportion 90 in a direction perpendicular to a direction in which the external unit C2 and the ink cartridge C1 are joined.

Although theupper side plate 30 is a part forming the cavity of the ink cartridge C1, if only the structure of the joint is considered, theupper side plate 30 may be peeled off from the part forming the cavity of the ink cartridge C1, so that the joint can be described as: includes a top plate (upper member) 60 for restricting the coupledportion 90 in the upper direction, an upper side plate (lower member) 30 for restricting the coupledportion 90 in the lower direction, and at least one of anupper rib 61 and alower rib 31 for restricting the coupledportion 90 in the left-right direction, wherein theupper rib 61 and thelower rib 31 protrude in the upper-lower direction from theupper member 60 and thelower member 30, respectively; in connection with the embodiment of the present invention, the joint portion is provided above the cavity of the ink cartridge C1, however, it is also possible to provide a joint portion at other portions of the ink cartridge C1, for example, a joint portion is provided at the left, right, lower, etc. of the ink cartridge C1, as long as the joint with the joinedportion 90 is achieved.

As described above, in the modified ink cartridge C1, thesecond support plate 62 remains between theupper rib 61 and thelower rib 31, and when the joining portion is joined to the joinedportion 90, thesecond support plate 62 enters thenip space 93 along with theupper rib 61 and thelower rib 31. In order to further enhance the strength of the expanded ink cartridge C, as shown in fig. 3A and 3B, a support table 94 is further provided in thenip space 93, and when the joining portion is joined to the joinedportion 90, at least a part of theupper rib 61 and thelower rib 31 is supported by the support table 94, and theupper rib 61, particularly thetop plate 60, is restrained from shaking in the up-down direction by the support table 94.

The support stand 94 may be formed to be smaller than the clamping space 93 in the up-down direction, and the support stand 94 may be formed to extend forward from the front panel 81, or may be formed only in the clamping space 93 without contacting the front panel 83, and when the support stand 94 is formed in the latter manner, the support stand 94 may be formed separately from the coupling rod, i.e., the support stand 94 is a separate member externally mounted to the clamping space 93, and in the front-rear direction, the clamping space 93 is formed to be partitioned into a front clamping part 93a and a rear clamping part 93b, preferably, in the direction in which the size of the front clamping part 93a and the size of the rear clamping part 93b are substantially the same as the size of the second space S2 and the size of the first space S1, respectively, in the up-down direction, the size of the support stand 94 is substantially the same as the size of the first space S1, and when the coupling part of the coupling rod 91 and the coupled part of the coupled rod 92 facing the front clamping part 93a is coupled to the coupled part 90 is opposed to the second space S2 The support stand 94 is opposite to the first space S1, and the support stand 94 substantially fills the first space S1.

More preferably, as shown in fig. 3B, the front end of the supportingplatform 94 is further provided with amating surface 941 that mates with the second supportingplate side 621, so that the combination of the combining portion and the combinedportion 90 is tighter, and the entire ink cartridge C has better strength after expansion.

While the above has been described with the joint being provided on the ink cartridge C1 and the coupledpart 90 being provided on the outer body C2, it is contemplated that the positions of the joint and the coupledpart 90 may be interchanged, i.e., the joint is provided on the outer body C2 and the coupledpart 90 is provided on the ink cartridge C1; regardless of whether the ink cartridge C1 is provided with the joint portion or the joinedportion 90, it is preferable that neither the joint portion nor the joinedportion 90 be provided on the side of theink outlet 11.

[ combination of external body and modified ink cartridge ]

FIG. 4 is a schematic view showing a state where the modified small-capacity type ink cartridge is coupled to the external unit; fig. 5 is a perspective view of the modified small capacity type ink cartridge combined with an external unit.

Since the modified ink cartridge C1 is separately opened with thegas outlet 43 and theink inlet 44, before the ink cartridge C1 is filled with ink, thegas outlet 43 and theink inlet 44 are separately sealed, as shown in fig. 4, the ink cartridge C1 further includes a self-sealing member 70 for sealing thegas outlet 43 and theink inlet 44, and the self-sealing member 70 is capable of automatically sealing without being subjected to an external force, and includes a sealingbody 71 having aninsertion port 73 and aflange 72 formed at one end of the sealingbody 71, the sealingbody 71 is engaged with thegas outlet 43, and theflange 72 is engaged with thestep surface 431, and does not extend beyond therear side plate 40 in the front-rear direction after the sealing member 70 is mounted. When the external unit C2 is coupled to the ink cartridge C1, thegas inlet tube 88 is inserted into the cavity of the ink cartridge C1 through theinsertion port 73, thereby allowing gas communication between the cavity of the ink cartridge C1 and the cavity of theexternal unit 80.

Similarly, theink inlet 44 is sealed by the self-sealing member 70, and theink outlet tube 89 is inserted into the cavity of the ink cartridge C1 through theinlet 73, so that the ink (liquid) communication is established between the cavity of the ink cartridge C1 and the cavity of theexterior member 80. Since the self-sealing member 70 does not extend beyond therear side plate 40, as shown in fig. 5, when the external body C2 is combined with the ink cartridge C1, therear side plate 40 of the ink cartridge C1 can be tightly combined with thefront panel 81 of theexternal member 80, thereby improving the appearance of the ink cartridge C after expansion.

Alternatively, thegas outflow port 43 and theink inflow port 44 may be provided as a gas outflow port and theink outflow port 89 may be provided as an ink inflow port in the ink cartridge C1, and correspondingly, thegas inflow port 88 and the ink outflow port may be provided as a gas inflow port and an ink outflow port in theexternal member 80, respectively.

[ replacement of external component ]

As described above, the external body C2 is combined with the modified ink cartridge C1 to form an expanded ink cartridge C, and then the expanded ink cartridge C can be filled with ink as the unmodified ink cartridge C0, and in the up-down direction, when the ink line in the ink cartridge C1 is higher than the gas outflow port 43, the ink in the ink cartridge C1 will be consumed first, when the ink line in the ink cartridge C1 is lower than the gas outflow port 43, the air entering the cavity of the ink cartridge C1 will enter the ink storage space S4 of the external member 80 through the gas outflow port 43, resulting in the increase of the air pressure in the ink storage space S4, and the ink in the ink storage space S4 will flow into the cavity of the ink cartridge C1 through the ink outflow port 89, so that the ink line in the cavity of the ink cartridge C1 is consistent with the gas outflow port 43, and the process is repeated until the ink in the external body C2 is consumed, and then the ink cartridge in the cavity of the ink cartridge C1 starts to be consumed; the ink amount in the chamber of the ink cartridge C1 is always maintained at a constant value, i.e., the ink line is at the same height as the gas outlet 43, until the ink in the external body C2 is consumed, so that even if the ink cartridge C is shaken during operation of the ink jet printer, the pressure change of the ink cartridge C1 to the print head is almost negligible, thereby ensuring stable printing quality.

The change in the amount of ink in the ink storage space S4 of theexternal member 80 can be observed at any time by the operator through thetransparent cover member 86, and theink outflow tube 89 is disposed in close proximity to the partition G, which results in complete consumption of the ink in the ink storage space S4. In the embodiment of the present invention, the external body C2 is replaceable, that is, the external body C2 and the ink cartridge C1 are detachably coupled, and when the operator observes that the ink in the ink storage space S4 is consumed, the external body C2 which has consumed the ink can be separated from the ink cartridge C1, and then a new external body C2 is replaced to be coupled with the ink cartridge C1.

The replacement process of the external body C2 is as follows:

first, the external body C2 and the ink cartridge C1, which have been exhausted, are separated from each other, and since the self-sealing member 70 has a self-sealing function, the self-sealing member 70 located at theair outlet 43 and theink inlet 44 is automatically sealed after theair inlet tube 88 and theink outlet tube 89 are disengaged from theair outlet 43 and theink inlet 44, respectively, so that the ink in the ink cartridge C1 does not flow out.

Then, thefront panel 81 where thegas inflow tube 88 and theink outflow tube 89 of the prepared exterior body C2 are located is placed upward, therear panel 40 where thegas outflow port 43 and theink inflow port 44 of the ink cartridge C1 are located is placed downward, so that thegas outflow port 43 corresponds to thegas inflow tube 88, theink inflow port 44 corresponds to theink outflow tube 89, and at least one of therib 61 and therib 31 corresponds to the holdingspace 93, and finally the ink cartridge C1 is combined with the new exterior body C2.

By making the external unit C2 replaceable, an operator can expand the capacity of the ink cartridge C according to the type of the ink jet printer by combining the external unit C2 and the ink cartridge C1, that is, the capacity of the expanded ink cartridge C is not a fixed value, but can be changed arbitrarily according to the requirement.

In summary, the expansion method according to the present invention is applicable not only to the new ink cartridge C1 formed by injection molding but also to the existing ink cartridge C0 that has consumed ink, and only when the existing ink cartridge C0 that has consumed ink is used, the ink cartridge C0 is modified or regenerated into the ink cartridge C1 so that the joint or the joinedportion 90 is formed in the ink cartridge C1, and the specific method is as follows:

preparing an external body C2 containing ink;

cutting off the closing plate 41, thearc part 42 and thefirst support plate 32 on the polygon body (the modified ink box) C0 to form a modified ink box C1;

anair outlet 43 and anink inlet 44 are arranged on therear side plate 40;

a part of the external body C2 (bonded portion 90) is inserted between theupper side plate 30 and thetop plate 60 such that at least one of theupper rib 61 and thelower rib 31 is opposed to the external body C2, and the external body C2 is in gas communication and liquid communication with the polygonal body C1 through thegas flow outlet 43 and theink flow inlet 44.

Wherein, cutting awayfirst support plate 32 includes cutting away leftsupport plate 32a located at the left side of the second support plate andright support plate 32b located at the right side of the second support plate, and finally,second support plate 62 is further provided betweenupper side plate 30 andtop plate 60.

The external body C2 is detachably coupled to the polygonal body (modified ink cartridge) C1, and forms a gas communication and an ink (liquid) communication therebetween, thereby forming the volume-expanded ink cartridge C.

Claims (9)

1. The utility model provides an ink horn after dilatation, detachably installs in ink jet printer, including current ink horn and the external body that is used for holding the ink, current ink horn is including being used for carrying out the air inlet of atmosphere exchange with the ink outlet that combines with ink jet printer and with the outside, ink outlet with the air inlet all is set up the preceding curb plate of current ink horn, a serial communication port, be provided with gas outflow and ink flow inlet on the posterior lateral plate at the rear of current ink horn, wherein, gas outflow is used for making and gets into through the air inlet air outflow in the current ink horn cavity extremely external body, the ink flow inlet is used for following the air cavity of current ink horn gets into behind the cavity of external body, make ink in the external body flows in the cavity of current ink horn.

2. The expanded ink cartridge according to claim 1, wherein the existing ink cartridge is an ink cartridge that has been depleted of ink; the external body is detachably combined with the existing ink box, and the external body can be replaced after ink is consumed.

3. The expanded ink tank as claimed in claim 2, wherein the ink inflow port is provided close to a lower side plate of the existing ink tank.

4. The expanded ink cartridge according to any one of claims 1 to 3, wherein a gas inlet pipe coupled to the gas outlet and an ink outlet pipe coupled to the ink inlet are provided on the front plate of the outer body.

5. The expanded ink cartridge according to claim 4, wherein: the gas flow outlet is located above the ink flow inlet.

6. The expanded ink cartridge according to claim 5, wherein: the external body and the existing ink box have the same size in the vertical direction.

7. The expanded ink cartridge according to claim 5, wherein the expanded ink cartridge includes a self-sealing member for sealing the gas outflow port or the ink inflow port, and the self-sealing member is automatically sealed after the gas inflow tube or the ink outflow tube is disengaged from the gas outflow port or the ink inflow port, respectively.

8. The expanded ink cartridge of claim 7, wherein the external member abuts against the rear plate of the existing ink cartridge, and the rear plate of the existing ink cartridge is closely attached to the front plate of the external member.

9. The expanded ink cartridge according to claim 8, wherein: the ink box and the external body are combined through a combination part, and the position of the combination part is not positioned on the gas outlet and the ink inlet.

Images