JP2004202777A - Liquid container and liquid ejector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the size of waste ink while holding it surely and to enhance the degree of freedom in design. <P>SOLUTION: The liquid container is arranged such that first flocculant LZ1 through fourth flocculant LZ4 reacting chemically with the waste ink to flocculate (or coagulate) the waste ink are provided, at a specified interval, along the vertical direction of the waste ink tank 40, on one inner side wall Sb of a waste ink tank 40. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a liquid container and a liquid ejecting apparatus.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a liquid ejecting apparatus that ejects a liquid to a target, there is an ink jet printer that ejects ink droplets onto paper to print characters, images, and the like. The ink jet printer includes a carriage having a recording head in which a plurality of nozzles having minute openings are formed. An ink cartridge filled with ink is mounted on the carriage. In addition, the ink jet printer includes a cap unit for preventing the ink filled in the ink cartridge from drying during non-printing.
[0003]
The ink jet printer performs printing by ejecting ink filled in the ink cartridge from the nozzle to a predetermined position on the paper while the carriage moves in the width direction of the paper (main scanning direction). In addition, at the time of non-printing, the ink jet printer abuts the cap unit on the recording head to seal the recording head, thereby preventing the ink filled in the ink cartridge from drying.
[0004]
As this type of ink jet printer, there is an ink jet printer having a waste ink tank which is connected to the cap unit and stores unnecessary ink discharged from nozzles of the recording head. The cap unit of the ink jet printer having the waste ink tank is connected to a suction pump. Then, by depressurizing the cap unit by the suction pump and applying a negative pressure to the nozzles, the unnecessary ink is removed by suction, and the sucked ink is stored and held in the waste ink tank as waste ink. It has become.
[0005]
By the way, there is known a waste ink tank in which an absorbing material formed of, for example, a sponge or the like is provided for absorbing and holding the waste ink therein (for example, Patent Document 1).
[0006]
[Patent Document 1]
JP 2001-232817 A
[Problems to be solved by the invention]
However, the absorbing material is formed to have a large size so that a sufficient amount of waste ink can be reliably absorbed and held. Therefore, the absorbent material occupies a considerable proportion of the volume of the printer. Further, the absorbing material absorbs and retains the waste ink in a liquid state, such as when moving the printer, when vibration is externally applied to the printer, the absorbed waste ink exudes from the absorbing material, The exuded waste ink may leak out of the waste ink tank. Therefore, the waste ink tank must be provided at the bottom of the printer so that the waste ink does not adhere to other members even if the waste ink leaks. The degree was limited.
[0008]
SUMMARY An advantage of some aspects of the invention is to provide a liquid container that can reduce the size of waste ink and can reliably hold waste ink. It is in. Another object of the present invention is to provide a liquid ejecting apparatus having improved design flexibility.
[0009]
[Means for Solving the Problems]
The liquid container of the present invention is connected to a carriage having a liquid ejecting head, and in the liquid container for containing the liquid discharged from the liquid ejecting head, the liquid is aggregated on an inner wall of the liquid container. Many coagulants were provided apart from each other.
[0010]
According to this, the liquid discharged to the liquid container can be aggregated (or solidified) and held. In addition, since the plurality of coagulants are provided on the inner side wall of the liquid container so as to be separated from each other, the liquid discharged to the liquid container can be reliably reacted and solidified for each coagulant.
[0011]
In the liquid container, the plurality of coagulants may be band-shaped coagulants provided in parallel with the width direction of the inner wall.
According to this, the liquid discharged to the liquid container can be sequentially aggregated.
[0012]
In this liquid container, at least one coagulant among the plurality of coagulants may include a preventing unit for preventing the coagulant from contacting the liquid.
According to this, it is possible to prevent the liquid discharged to the liquid container from coming into contact with a coagulant other than the corresponding coagulant by vibrating the liquid container. As a result, all the coagulants can be used effectively.
[0013]
In this liquid container, the flocculant may be composed of at least one material selected from a polyvalent metal salt, an acid, and a cationic polymer.
According to this, the liquid stored in the liquid container can be aggregated.
[0014]
In a liquid ejecting apparatus according to the present invention, in a liquid ejecting apparatus including a liquid ejecting head and a liquid container accommodating a liquid discharged from the liquid ejecting head, the liquid is aggregated on an inner wall of the liquid container. Many coagulants were provided apart from each other.
[0015]
According to this, since each of the plurality of coagulants is provided on the inner wall so as to be separated from each other, the liquid discharged into the liquid container penetrates over the plurality of coagulants at a time and coagulates (or coagulates). Instead, it is permeated and coagulated (or coagulated) for each coagulant. Therefore, the liquid discharged to the liquid container can be surely aggregated (or solidified). As a result, the liquid does not leak from the liquid container and does not affect other members. Therefore, when designing the liquid ejecting apparatus, the arrangement position of the liquid container is not limited. As a result, the liquid ejecting apparatus can be designed freely.
[0016]
In this liquid ejecting apparatus, the plurality of coagulants may be band-shaped coagulants provided in parallel with the width direction of the inner wall.
According to this, the liquid discharged to the liquid container can be sequentially aggregated. Therefore, since the liquid is agglomerated (or solidified) in the liquid container at any time, the liquid does not spill out of the liquid container and affect other members.
[0017]
In this liquid ejecting apparatus, at least one coagulant among the plurality of coagulants may include a preventing unit for preventing the coagulant from contacting the liquid.
According to this, it is possible to prevent the liquid discharged to the liquid container from coming into contact with a coagulant other than the corresponding coagulant by vibrating the liquid container. As a result, all of the coagulant can be effectively used up.
[0018]
In this liquid ejecting apparatus, the flocculant may be composed of at least one material selected from a polyvalent metal salt, an acid, and a cationic polymer.
According to this, it is possible to provide a liquid ejecting apparatus that can coagulate (or coagulate) and hold the waste ink.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an overall perspective view for explaining a basic configuration of an ink jet printer as a liquid ejecting apparatus. FIG. 2 is a diagram for explaining the head cleaning mechanism.
[0020]
As shown in FIG. 1, a platen 12 is mounted on a frame 11 of an ink jet printer (hereinafter, referred to as a printer) 10 of the present embodiment, and paper P is fed on the platen 12 by a paper feed mechanism (not shown). Is done. A carriage 13 is supported by the frame 11 via a guide member 14 so as to be movable in the longitudinal direction of the platen 12. Then, the carriage 13 is reciprocated by the carriage motor 15 via the timing belt 16.
[0021]
The carriage 13 includes a recording head 20 as a liquid ejecting head at a lower portion thereof. As shown in FIG. 2, the recording head 20 has a nozzle forming surface 20a on the lower surface of which a plurality of nozzles 20b are formed. Each of the plurality of nozzles 20b is provided with a piezoelectric element 20c.
[0022]
As shown in FIG. 1, an ink cartridge 21 is removably mounted on the carriage 13, and black ink filled in the ink cartridge 21 is supplied to the recording head 20. . The ink is a dye in the present embodiment. Then, while the carriage 13 moves along the platen 12, the piezoelectric element 20c is driven based on print data, and printing is performed by ejecting ink onto the paper P from the nozzles 20b.
[0023]
A non-printable area is provided on one side of the frame 11. The carriage 13 is placed in the non-printable area when not printing. A head cleaning mechanism 25 is provided in this non-printable area.
[0024]
As shown in FIG. 2, the head cleaning mechanism 25 includes a cap unit 26, first, second, and third tubes T1, T2, and T3, an atmosphere release valve 29, a suction pump BP, and a waste ink tank as a liquid container. 40. The cap unit 26 includes a cap holder 31, a cap member 32, an ink absorber 33, and a holder. The cap unit 26 is attached to the frame 11 so as to be able to move up and down by well-known lifting means (not shown).
[0025]
The cap holder 31 includes a rectangular frame-shaped cap member 32 therein. The cap member 32 is made of a flexible material. Then, when the carriage 13 is placed on the non-printable area, the lifting / lowering means is driven to raise the cap holder 31. Thereafter, the upper end edge of the cap member 32 of the cap holder 31 is pressed against the nozzle forming surface 20a of the recording head 20 to seal the plurality of nozzles 20b. As a result, drying of the ink filled in the ink cartridge 21 during non-printing can be prevented.
[0026]
The cap member 32 has a sheet-shaped ink absorber 33 housed therein, and is held and held by a holder 34. The ink absorber 33 is formed of a sponge in the present embodiment. In a state where the cap member 32 seals the plurality of nozzles 20b, the ink absorber 33 faces the nozzles 20b at a predetermined interval, and receives the ink sucked from the nozzles 20b. .
[0027]
Further, the cap holder 31 has an air opening port 35a and a suction port 35b formed at the bottom thereof, which penetrate the bottom and the cap member 32. The atmosphere opening port 35a is connected to the first tube T1, and is connected to the atmosphere opening valve 29 via the first tube T1. The open-to-atmosphere valve 29 is connected to control means (not shown), and is controlled to open and close. Then, when the atmosphere release valve 29 is opened, the atmosphere is supplied into the cap unit 26 via the first tube T1.
[0028]
On the other hand, the suction port 35b is connected to the second tube T2, and is connected to the suction side of the suction pump BP via the second tube T2. A third tube T3 is connected to the exhaust side of the suction pump BP, and is connected to the waste ink tank 40 via the third tube T3. That is, the carriage 13 is connected to the waste ink tank 40 via the second and third tubes T2 and T3 when the cap member 32 is pressed against the nozzle forming surface 20a.
[0029]
The suction pump BP is driven by driving means (not shown). The inside of the cap unit 26 is depressurized (negative pressure) by driving the suction pump BP with the atmosphere opening valve 29 closed and the cap member 32 sealing the plurality of nozzles 20b. As a result, unnecessary ink (hereinafter referred to as waste ink) attached to the nozzle 20b can be sucked. The sucked waste ink is received by the ink absorber 33.
[0030]
Further, by opening the atmosphere opening valve 29 and driving the suction pump BP with the cap member 32 sealing the nozzle 20b, the atmosphere is sucked from the atmosphere opening port 35a. Then, the waste ink received by the ink absorber 33 is discharged from the suction port 35b to the waste ink tank 40 via the second tube T2 and the third tube.
[0031]
When the suction pump BP is driven, the holding member 34 prevents the cap member 32 from bending. Therefore, the waste ink received by the cap member 32 can be reliably discharged to the waste ink tank 40.
[0032]
Next, the details of the waste ink tank 40 will be described with reference to FIGS. FIG. 3 is a perspective view of the waste ink tank 40. FIG. 4 is a sectional view of the waste ink tank 40.
[0033]
The waste ink tank 40 has a substantially rectangular parallelepiped shape as shown in FIG. As shown in FIG. 4, the waste ink tank 40 is fixed to one end of the third tube T3 at an opening Sp formed in the upper surface portion Sa. In the waste ink tank 40, four first flocculants LZ1 to LZ4 are separated from each other at predetermined intervals on one inner side wall Sb along the vertical direction of the waste ink tank 40. It is provided. The first flocculant LZ1 to the fourth flocculant LZ4 are respectively provided in parallel to the width direction of the inner wall Sb in a strip shape. The first to fourth flocculants LZ1 to LZ4 are flocculants composed of calcium nitrate, hydrochloric acid and polyallylimine. Then, the first flocculant LZ1 to the fourth flocculant LZ4 chemically react with the waste ink discharged from the third tube T3, and rapidly and reliably coagulate (or coagulate) the waste ink. Can be done. Further, the waste ink tank 40 is provided with no components other than the first flocculant LZ1 to the fourth flocculant LZ4 therein.
[0034]
In the present embodiment, the first flocculant LZ1 to the fourth flocculant LZ4 are, in order from the bottom, the first flocculant LZ1, the second flocculant LZ2, the third flocculant LZ3, and the fourth flocculant LZ3. Are provided in this order. In the present embodiment, the four first flocculants LZ <b> 1 to fourth LZ <b> 4 are provided on one inner side wall of the waste ink tank 40, but the present invention is not limited to this. The number of flocculants may be changed as appropriate according to the size of 40.
[0035]
The first coagulant LZ1 to the fourth LZ4 are provided avoiding the flow path of the waste ink while the waste ink introduced from the opening Sp adheres to the lower surface Sc of the waste ink tank 40. Have been. That is, the first flocculants LZ1 to the fourth LZ4 are provided on the inner wall Sb farther from the opening Sp where the waste ink introduced from the opening Sp does not directly hit. As a result, the waste ink discharged from the opening Sp first adheres to the lower surface Sc of the waste ink tank 40, and thereafter is coagulated (or solidified) by the first coagulant LZ1.
[0036]
In the waste ink tank 40 configured as described above, waste ink is introduced into the waste ink tank 40 through the opening Sp. Then, when the waste ink is stored to a height corresponding to the first flocculant LZ1, the waste ink comes into contact with the first flocculant LZ1 and dissolves the first flocculant LZ1. As a result, the waste ink stored up to the height corresponding to the first flocculant LZ1 is flocculated (or coagulated). Subsequently, waste ink is introduced into the waste ink tank 40 through the opening Sp. When the waste ink is stored to a height corresponding to the second flocculant LZ2, the waste ink comes into contact with the second flocculant LZ2 and dissolves the second flocculant LZ2. As a result, the waste ink stored up to the height corresponding to the second flocculant LZ2 is flocculated (or coagulated). Thereafter, in the same manner as described above, the waste ink introduced into the waste ink tank 40 is sequentially aggregated (or solidified) by the third flocculant LZ3 and the fourth flocculant LZ4. That is, the waste ink is agglomerated (or solidified) by the first to fourth flocculants LZ1 to LZ4 every time a certain amount of the waste ink is stored.
[0037]
As described above, every time the waste ink stores a certain amount, the waste ink forms the first flocculant LZ1, the second flocculant LZ2, the third flocculant LZ3, and the fourth flocculant LZ4 in this order. The first and fourth coagulants LZ1 to LZ4 can surely react with each other. That is, as described above, the first flocculant LZ1 to the fourth flocculant LZ4 are provided at a predetermined interval from each other, so that the waste ink is discharged at the same time as the first flocculant LZ4. The waste ink can be surely coagulated (or coagulated) without permeating the coagulant LZ1 to the fourth coagulant LZ4. As a result, leakage of the waste ink to the outside of the waste ink tank 40 can be reliably prevented.
[0038]
Further, in the present embodiment, as described above, nothing is provided inside the waste ink tank 40 except for the first flocculant LZ1 to the fourth flocculant LZ4. Therefore, unlike the related art, there is no need to provide a large absorbent that absorbs and holds the waste ink in a liquid state, so that the waste ink tank 40 can be reduced in size accordingly. As a result, the degree of freedom in designing the printer 10 can be improved.
[0039]
According to the waste ink tank and the ink jet printer of the embodiment, the following features can be obtained.
(1) In the embodiment, the four first flocculants LZ <b> 1 to LZ <b> 4 which chemically react with the waste ink and coagulate (or coagulate) the waste ink are stored in the waste ink tank 40. Are provided at predetermined intervals along the vertical direction of one inner side wall Sb. By doing so, the first flocculant LZ1, the second flocculant LZ2, the third flocculant LZ3, and the fourth flocculant LZ4 are sequentially disposed of the waste ink stored in a certain amount each time. The coagulants LZ1 to LZ4 can reliably react.
[0040]
(2) In the above embodiment, nothing is provided inside the waste ink tank 40 except that the first flocculant LZ1 to the fourth flocculant LZ4 are provided on the inner side wall Sb. Therefore, unlike the related art, there is no need to provide a large-sized absorbent for absorbing and holding the waste ink in a liquid state, so that the waste ink tank 40 can be downsized accordingly. As a result, the degree of freedom in designing the ink jet printer can be improved.
[0041]
(3) In the embodiment, the first flocculant LZ1 to the fourth flocculant LZ4 are each composed of calcium nitrate, hydrochloric acid and polyallylimine. Therefore, the waste ink can be quickly and reliably aggregated (or solidified).
(2nd Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIG. The ink jet printer 10 and the waste ink tank 40 of this embodiment are the same as those of the first embodiment except that the first flocculants LZ1 to LZ4 of the first embodiment are provided with isolation members. It is. Accordingly, in the present embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted.
[0042]
FIG. 5 is a sectional view of the waste ink tank 50 according to the present embodiment. As shown in FIG. 5, the waste ink tank 50 is provided at one inner side wall Sb thereof with a separation member R as a prevention means at predetermined intervals along the width direction of the inner side wall Sb.
[0043]
More specifically, each isolation member R is provided so as to protrude so that the angle between the inner wall Sb and the upper surface Sa is an acute angle. The first coagulant LZ1 to the fourth LZ4 are fixed to the lower surface of each isolation member R, respectively. That is, the isolation members R are provided in all of the first flocculant LZ1 to the fourth LZ4.
[0044]
The respective separating members R correspond to the respective first flocculants LZ1 corresponding to the non-coagulated (or coagulated) waste ink stored in the waste ink tank 50 corresponding to the first coagulant LZ1 caused by external vibration or the like such as moving the printer 10. To prevent contact with a flocculant provided at a position higher than the fourth LZ4. As described above, by providing the separating member R between each of the first flocculants LZ1 to the fourth LZ4, in addition to the effect of the first embodiment, the waste ink is vibrated by externally applied vibration or the like. It is possible to reliably prevent the permeation of the first coagulant LZ1 to the fourth coagulant LZ4 at a time. Then, the waste ink can be reliably reacted in order from the first flocculant LZ1, the second flocculant LZ2, the third flocculant LZ3, and the fourth flocculant LZ4. Therefore, compared to the waste ink tank 40 according to the first embodiment, the waste ink can be more reliably aggregated (or solidified).
[0045]
The embodiment of the invention is not limited to the first and second embodiments, but may be implemented as follows.
In the first and second embodiments, the band-shaped first flocculants LZ1 to LZ4 are provided on the inner side wall Sb of the waste ink tanks 40 and 50. However, the first flocculants LZ1 to LZ4 are provided. The shape of LZ4 is not limited to a band shape, but the point is that a large number of coagulants are provided separately from each other. For example, as shown in FIG. 6, the present invention may be applied to a waste ink tank 60 in which a large number of substantially hemispherical flocculants LZ are provided on the inner side wall Sb. By doing so, the same effects as in the first and second embodiments can be obtained.
[0046]
In the first and second embodiments, the first flocculants LZ1 to LZ4 are provided only on one inner side wall Sb of the waste ink tanks 40 and 50. The first flocculants LZ1 to LZ4 may be provided on a plurality of inner side walls Sb of the waste ink tanks 40 and 50. By doing so, the contact area between the waste ink and each of the first flocculants LZ1 to the fourth LZ4 is increased, so that the waste ink is faster than the waste ink compared to the first and second embodiments. Can be aggregated (or coagulated).
[0047]
In the first and second embodiments, the first flocculants LZ1 to LZ4 composed of calcium nitrate, hydrochloric acid and polyallylimine were used as the flocculant, but are not limited thereto. Instead, it is sufficient if it is composed of at least one material selected from polyvalent metal salts, acids and cationic polymers. Here, as the polyvalent metal salt, for example, magnesium ion (Mg ++), calcium ion (Ca ++), copper ion (Cu ++), nickel ion (Ni ++), barium ion (Ba ++), iron ion (Fe ++ or Fe ++++) , Aluminum ions (Al ++++), and chromium ions (Cr ++++). Examples of the acids include hydrochloric acid, sulfuric acid, and nitric acid. Examples of the cationic polymer include polyacrylimine, polyallylimine, polyallylamine, polyallylsulfone, and dityldiallylammonium chloride.
[0048]
In the first and second embodiments, the present invention is applied to the ink jet printer 10 in which the ink is a dye, but is not limited to this, and may be applied to the ink jet printer 10 in which the ink is a pigment. Is also good. In the case where the ink is a pigment, components (such as water) that are not aggregated by the first to fourth flocculants LZ1 to LZ4 evaporate after being stored in the waste ink tanks 40 and 50. Therefore, the size of the waste ink tanks 40 and 50 is reduced by the volume of the non-aggregated component (water or the like) as compared with the waste ink tanks 40 and 50 of the ink jet printer 10 in which the ink is a pigment. be able to. As a result, the size of the waste ink tanks 40 and 50 can be further reduced.
[0049]
In the first and second embodiments, the present invention is applied to the ink jet printer including the ink cartridge 21 in which the carriage 13 is filled with black ink. However, the present invention is not limited to this. The present invention may be applied to an ink jet printer including an ink cartridge filled with a plurality of colors of ink in addition to the ink cartridge 21. For example, an ink jet printer capable of performing full color printing by providing the carriage 13 with an ink cartridge filled with color ink in addition to the ink cartridge 21 may be applied. By doing so, the same effects as in the first and second embodiments can be obtained.
[0050]
In the first and second embodiments, the liquid ejecting apparatus is embodied as an ink jet printer, but is not limited thereto, and may be applied to other liquid ejecting apparatuses. Similarly, the waste ink tank is embodied as a liquid container, but is not limited to this, and may be applied to other liquid containers.
[Brief description of the drawings]
FIG. 1 is an overall perspective view for explaining a basic configuration of an ink jet printer.
FIG. 2 is a diagram for explaining a head cleaning mechanism.
FIG. 3 is a perspective view of a waste ink tank according to the first embodiment.
FIG. 4 is a cross-sectional view of the waste ink tank according to the first embodiment.
FIG. 5 is a sectional view of a waste ink tank according to a second embodiment.
FIG. 6 is a perspective view illustrating another example of a waste ink tank.
[Explanation of symbols]
LZ1, LZ2, LZ3, LZ4... First to fourth coagulants, R... Isolation member as prevention means, Sb... Inner side wall, Sc. , A carriage, 20 ... a recording head as a liquid ejecting head, 40, 50, 60 ... a waste ink tank as a liquid container.

Claims (8)

In a liquid container that is connected to a carriage having a liquid ejecting head and contains liquid discharged from the liquid ejecting head,
A liquid container, wherein a plurality of coagulants for coagulating the liquid are provided on an inner wall of the liquid container so as to be separated from each other. The liquid container according to claim 1,
The liquid container, wherein the plurality of coagulants are strip-shaped coagulants provided in parallel with the width direction of the inner wall. The liquid container according to claim 1 or 2,
A liquid container, wherein at least one coagulant of the plurality of coagulants is provided with a prevention unit for preventing contact between the coagulant and the liquid. The liquid container according to any one of claims 1 to 3,
A liquid container, wherein the coagulant is composed of at least one material selected from a polyvalent metal salt, an acid, and a cationic polymer. In a liquid ejecting apparatus including a liquid ejecting head and a liquid container that accommodates liquid discharged from the liquid ejecting head,
A liquid ejecting apparatus, wherein a plurality of coagulants for coagulating the liquid are provided on an inner wall of the liquid container so as to be separated from each other. The liquid ejecting apparatus according to claim 5,
The liquid ejecting apparatus according to claim 1, wherein the plurality of coagulants are band-shaped coagulants provided in parallel with a width direction of the inner wall. The liquid ejecting apparatus according to claim 5, wherein
The liquid ejecting apparatus according to claim 1, wherein at least one coagulant among the plurality of coagulants includes a prevention unit for preventing contact between the coagulant and the liquid. The liquid ejecting apparatus according to any one of claims 5 to 7,
The liquid ejecting apparatus according to claim 1, wherein the coagulant is made of at least one material selected from a polyvalent metal salt, an acid, and a cationic polymer.

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