JP3658367B2 - Liquid storage container and ink jet recording apparatus using the container - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid storage container suitable for use as an ink tank of an ink jet recording apparatus and an ink jet recording apparatus using the container.
[0002]
[Prior art]
A recording device having functions such as a printer, a copying machine, a facsimile, or a recording device used as an output device such as a composite electronic device including a computer or a word processor or a workstation is based on image information (recording information). An image (including characters and symbols) is recorded on a recording medium (recording material) such as a cloth, a plastic sheet, or an OHP sheet. The recording apparatus can be classified into an ink jet type, a wire dot type, a thermal type, a laser beam type, and the like according to a recording method.
[0003]
In a serial type recording apparatus that performs recording while performing main scanning in a direction crossing the conveyance direction (paper feeding direction, sub-scanning direction) of the recording medium, recording provided on a carriage that moves in the main scanning direction along the recording medium An image is formed (recorded) by the discharge unit (head unit) as a means, and after the image formation for one line is completed, a predetermined amount of paper is fed (pitch conveyance as sub-scanning), and then stopped again. By repeating the operation of recording (main scanning) the next row of images on the recording medium, the entire recording medium is recorded. On the other hand, in a line type recording apparatus that records only by sub-scanning in the conveyance direction of a recording medium (recording paper or the like), after the recording medium is set at a predetermined recording position and recording for one line is performed collectively. Recording of the entire recording medium is performed by repeating the operation of feeding a predetermined amount of paper (pitch feeding) and recording the next line all at once.
[0004]
Among them, an ink jet recording apparatus (ink jet recording apparatus) performs recording by discharging ink from a discharge unit section (head section) as a recording means to a recording medium, and the recording head can be easily made compact. High-definition images can be recorded at high speed, and can be recorded on plain paper without the need for special processing, running costs are low, non-impact method reduces noise, and there are many types. It is advantageous in that it is easy to form a color image using the ink (for example, color ink).
[0005]
As an energy generating element that generates energy used for discharging ink from the discharge port of the discharge unit (recording head), an element that uses an electromechanical transducer such as a piezoelectric element, or an electromagnetic wave such as a laser is irradiated. There are those that generate heat and discharge ink droplets by this heat generation action, and those that heat a liquid by an electrothermal transducer having a heating resistor. Among them, an ink jet recording head that discharges ink as droplets using thermal energy can perform high-resolution recording because the discharge ports can be arranged with high density. In particular, a recording head using an electrothermal transducer element as an energy generating element is easy to miniaturize, and IC technology and micro-machining technology with remarkable progress in technology and improvement in reliability in recent semiconductor fields. This is advantageous because it can fully utilize these advantages, can be easily mounted at high density, and is inexpensive to manufacture.
[0006]
In addition, there are various requirements for the material of the recording medium. In recent years, development for these requirements has progressed, such as paper (including thin paper and processed paper) and resin thin plates (OHP, etc.) that are normal recording media. In addition, a recording apparatus using cloth, leather, nonwoven fabric, metal, or the like as a recording medium is also used.
[0007]
Some of the ink jet recording apparatuses include a liquid storage container for storing ink (liquid) supplied to a discharge unit section (head section) as recording means. In the case of an ink jet recording apparatus, the liquid storage container may be configured to sequentially supply ink to a discharge unit unit by replenishing ink from a main tank as an ink supply source. Further, in the case of an ink jet recording apparatus, the liquid storage container is configured as an ink cartridge that is detachably (replaceable) attached to the apparatus main body or a carriage, or further, by integrating a discharge unit portion into the liquid storage container. It may be configured as a replaceable (disposable) head cartridge (inkjet cartridge).
[0008]
Also, a so-called pit-in ink supply method may be adopted as an ink supply method in an inkjet recording apparatus or the like. In this pit-in ink supply system, a liquid (ink) stored in a liquid storage container is supplied to the discharge unit, and a separate main tank for replenishing (supplying) the liquid (ink) to the liquid storage container is provided. A liquid for replenishing the liquid storage container by mounting the head cartridge having a structure in which the liquid storage container and the discharge unit portion are integrated on the carriage, and moving the carriage to connect to the main tank at a predetermined position. Supply system.
[0009]
[Problems to be solved by the invention]
In the case of replenishing ink in such a pit-in ink supply system, a configuration is required in which a predetermined amount of ink is replenished to the liquid storage container without excess or deficiency. In particular, overflow (liquid overflow) caused by excessive ink replenishment when ink is filled into the liquid storage container is a serious problem in quality.
However, in the conventional liquid storage container and the ink jet recording apparatus using the container, when the ink is excessively replenished in the storage part of the liquid storage container and an overflow occurs, the overflowed liquid is transferred from the liquid storage container to the outside. Leakage cannot be effectively prevented, and in some cases, the leaked liquid (ink) may enter the control system of the ink supply system or the entire system, resulting in inconvenience such as damage to the electrical system. There was a technical problem to be solved.
[0010]
The present invention has been made in view of the technical problems as described above, and the object of the present invention is that the liquid replenishment configuration is inexpensive, the container configuration can be downsized, and a liquid leak occurs. However, the liquid leakage from the liquid storage container can be eliminated by stopping the leakage liquid in the communication chamber, the liquid supply performance can be stabilized, and the liquid storage container having high reliability without liquid leakage and the ink jet using the container It is to provide a recording device.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 is a storage unit for storing a liquid, a replenishing port provided for replenishing the storage unit with a liquid, and adjacent to the storage unit. A communication chamber provided in the direction from the storage section toward the communication chamber, a gas-liquid separation member disposed so as not to transmit liquid, and for communicating the communication chamber with the atmosphere. A liquid absorption member disposed between the gas communication port and the gas-liquid separation member and the gas communication port inside the communication chamber, and the liquid from the storage unit by suction from the gas communication port Is absorbed by the liquid absorbing member, and the suction force by the suction is cut off.
[0012]
In order to achieve the above object, the invention according to claim 8 is an inkjet recording apparatus that performs recording by supplying ink from a liquid storage container to a discharge unit, and discharging the ink from the discharge unit to a recording medium. The liquid storage container includes a storage unit for storing a liquid, a replenishment port provided for replenishing the storage unit with a liquid, a communication chamber provided adjacent to the storage unit, and the storage unit A gas-liquid separation member disposed so as to allow gas to permeate in a direction toward the communication chamber but not liquid, a gas communication port for communicating the communication chamber with the atmosphere, and the gas-liquid inside the communication chamber A liquid absorbing member disposed between the separation member and the gas communication port, and the suction from the gas communication port causes the liquid from the storage unit to be absorbed by the liquid absorption member. Suction force, characterized in that it is interrupted that.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be specifically described below with reference to the drawings. Note that the same reference numerals denote the same or corresponding parts throughout the drawings.
FIG. 7 is a schematic perspective view showing a schematic configuration of an embodiment of an ink jet recording apparatus provided with a liquid storage container to which the present invention is applied. In FIG. 7, a discharge unit 1 serving as a recording unit is provided in a lower part of a liquid storage container 30 to which the present invention is applied in an integrated or detachable state, and the liquid storage container 30 is mounted on a carriage 31. The carriage 31 is guided and supported by a main guide rail 32 and a sub guide rail 33 installed in parallel to each other on the apparatus main body so as to be reciprocally movable. A carriage motor (main scanning motor) 34 for moving the carriage 31 is attached to one end of the apparatus main body. An idler pulley 35 is disposed at the other end of the apparatus main body. A timing belt 37 parallel to the guide rails 32 and 33 is stretched between a drive pulley 36 attached to the output shaft of the carriage motor 34 and the idler pulley 35.
[0014]
The timing belt 37 is connected to a part of the carriage 31. The timing belt 37 is given a predetermined tension by a tension spring 38 attached so as to urge the idler pulley 35. Thus, the carriage 31 is reciprocated by the forward and reverse rotations of the carriage motor 34, and the position and movement speed of the carriage 31 according to the rotation amount and rotation speed of the carriage motor 34, that is, the discharge unit section (head section) as recording means. The position and movement speed (main scanning speed) of the recording head 1 are controlled.
[0015]
A platen 39 is disposed in parallel to the guide rails 32 and 33 at a position facing the ink discharge portion (discharge port surface) of the discharge unit 1 with a predetermined gap. The platen 39 is for restricting the position of the recording medium (recording paper or the like) at the recording position to an appropriate distance between the sheets (distance between the ejection port surface and the recording medium). On the upstream side in the sheet passing direction from the platen 39, a conveyance roller (paper feeding roller) (not shown) is disposed in parallel with the guide rails 32 and 33. By pressing the pinch roller 41 supported by the pinch roller guide 40 against the transport roller, the recording paper (recording medium) fed from the automatic paper feeder 42 is transferred between the transport roller and the pinch roller 41. It is configured to be conveyed onto the platen 39 of the recording unit by frictional force. A discharge roller 43 and a spur (not shown) for discharging the recording medium that has passed through the recording unit are provided on the downstream side of the platen 39 in the sheet passing direction. Here, the friction between the discharge roller 43 and the spur is also provided. The recording paper is sent out by the conveying force.
[0016]
A recovery device 45 is disposed at a position outside the recording area on the right side of the platen 39 in the drawing. The recovery device 45 is provided with a cap 46 that can seal the ink discharge portion of the discharge unit portion 1. The recovery device 45 generates a negative pressure in the cap 46 by operating a suction pump that communicates with the inside of the cap while the ink discharge portion is sealed with the cap 46, thereby discharging the discharge unit portion 1. The ink ejection performance of the ejection unit (recording head) 1 is maintained and recovered by sucking out thickened ink, fixed ink, bubbles, dust (paper dust, etc.) and the like together with ink from the outlet. The cap 46 is used not only as a suction portion in the recovery operation of the recording head 1 but also for preventing ink drying in the ejection port when the recording apparatus is transported or when the recording head is not recording. The recovery operation of the discharge unit (recording head) 1 can also be performed by a discharge operation (for example, preliminary discharge) that pressurizes and discharges (discharges) ink in the discharge port in addition to the ink suction described above.
[0017]
The automatic paper feeder 42, the transport roller (paper feed roller) (not shown), the paper discharge roller 43, the recovery device 45, and the like are driven using, for example, an LF (line feed, paper feed) motor 47 as a drive source. This is performed via a transmission mechanism including a gear 48, a gear 49, and a clutch (not shown). In the example shown in the figure, the case where one liquid storage container 30 is mounted on the carriage 31 is shown. However, in the present invention, a plurality of liquid storage containers are mounted on the carriage 31 to perform color recording, tone recording, The present invention is similarly applied to a liquid storage container and an ink jet recording apparatus in the case of performing recording in which these are combined.
[0018]
The discharge unit 1 as a recording unit is an ink jet recording head that selectively discharges ink from a plurality of discharge ports by applying energy according to a recording signal. The recording head (ejection unit) 1 is an ink jet recording unit that ejects ink using thermal energy, and includes an electrothermal transducer for generating thermal energy. Further, the discharge unit 1 generates a pressure change by the growth and contraction of bubbles caused by film boiling caused by the thermal energy applied by the electrothermal converter, and uses this pressure change to discharge ink from the discharge port. Recording is performed. The electrothermal transducer is disposed corresponding to each of the ejection ports, and ejects ink from the corresponding ejection port by applying a pulse voltage to the corresponding electrothermal transducer according to the recording signal. Is.
[0019]
FIG. 8 is a partial perspective view schematically showing the structure of the ink discharge portion (one discharge port array) of the discharge unit portion 1. In FIG. 8, a plurality of discharges are provided at a predetermined pitch on the discharge port surface 81 facing a recording medium (recording material, recording paper, etc.) at a predetermined interval (for example, about 0.3 to 2.0 mm). An outlet 82 is formed, and an electrothermal converter (such as a heating resistor) 85 that generates thermal energy for ink discharge is disposed along the wall surface of each liquid path 84 that communicates the common liquid chamber 83 and the discharge port 82. ing. The discharge unit 1 is mounted in such a positional relationship that the discharge ports 82 are arranged in a direction crossing the main scanning direction (the moving direction of the carriage 31 in this embodiment mounted on the carriage 31). In this way, the corresponding electrothermal converter 85 is driven (applied with a pulse voltage) based on the image signal (recording signal) or the ejection signal, the ink in the liquid channel 84 is film-boiled, and discharged by the pressure generated at that time. A discharge unit (head unit) 1 that discharges ink droplets from the outlet 82 is configured.
[0020]
Hereinafter, a liquid storage container to which the present invention is applied, that is, a liquid storage container that can be used as the liquid storage container 30 in FIG. 7 will be described in detail.
[First embodiment]
FIG. 1 is a schematic perspective view showing a first embodiment of a liquid storage container to which the present invention is applied, partially broken, and FIG. 2 is a diagram showing a state in which the liquid storage container of FIG. 1 is a schematic longitudinal sectional view seen from a line 2-2 in FIG. 1 and 2, the liquid storage container includes a storage unit 2 for storing a liquid and a discharge unit unit 1 provided at a lower portion of the storage unit 2. The storage section 2 is for supplying a liquid to the discharge unit section (head section) 1 as recording means.
[0021]
The liquid storage container according to this embodiment is suitable for use as, for example, an ink tank in an inkjet recording apparatus or the like. In the following description, the liquid discharged from the discharge unit unit 1 is also referred to as ink. A replenishing port 3 for replenishing liquid from the main tank or the like as a liquid supply source to the storage unit 2 is provided on the bottom surface of the storage unit 2. Further, a connection portion 4 that leads to the discharge unit portion 1 is provided on the bottom surface inside the storage portion 2 where the liquid (ink) is stored, so as to supply the liquid (ink) to the discharge unit portion 1. Yes.
[0022]
A lid member 5 for closing (sealing) the storage unit 2 as an ink container is provided on the upper surface of the storage unit 2. The lid member 5 may be fixed to the storage unit 2 with an adhesive or the like, or may be attached so as to be opened and closed. A communication chamber 9 is formed inside the lid member 5, and the communication chamber 9 communicates with the storage unit 2 through a gas-liquid separation member 6. In other words, the gas-liquid separating member 6 is configured to allow gas to pass but not liquid (ink) to pass from the storage unit 2 toward the communication chamber 9, and an opening formed on the lower surface of the communication chamber 9. It is pasted on the part.
In the present embodiment, the gas-liquid separation member 6 is composed of a member obtained by applying a water repellent to the surface (lower surface) of the porous member 6 having the opening holes 7 on the storage unit 2 side. The upper surface of the porous member 6 faces the communication chamber 9. In this way, by attaching the gas-liquid separation member 6 made of the porous member to the opening formed on the lower surface of the lid member 5, the communication chamber 9 formed inside the lid member 5 stores liquid. The storage unit 2 communicates with the storage unit 2 so as to allow gas to pass but not liquid (ink). The communication chamber 9 communicates the upper surface of the gas-liquid separation member 6 made of the porous member and a gas communication port 8 (air suction port).
[0023]
The gas-liquid separation member (porous member) 6 is a member that allows gas to pass from the storage unit 2 to the communication chamber 9 but does not allow liquid (ink) to pass through. For example, a fibrous resin or metal is laminated and baked. It can be formed of multifiber bodies that are tied. In that case, a considerable amount of gas permeating is converted into the theoretical pore diameter of the micropores, and conversely, the fiber diameter and the density after sintering are determined aiming at the theoretical pore diameter, and created based on that. Yes.
A liquid absorbing member 10 is disposed between the communication chamber 9 and the gas communication port (air suction port) 8. In the illustrated example, the liquid absorbing member 10 is disposed inside the communication chamber 9 so as to close the end surface opening of the gas communication port (air suction port) 8 on the communication chamber side. The liquid absorbing member 10 is also a member that allows gas to pass from the communication chamber 9 to the gas communication port 8 but does not allow liquid (ink) to pass therethrough. For example, the liquid absorbing member 10 is formed by laminating and sintering a fibrous resin or metal. It can be formed of a fibrous body.
[0024]
FIG. 2 shows a state when the ink 15 is being replenished into the storage unit 2 from the ink supply source such as a main tank through the replenishing port 3 (when replenishing), and an arrow B in FIG. Indicates the ink replenishment position (ink level). Ink replenishment from the replenishing port 3 to the storage unit 2 is performed by, for example, a suction negative pressure (suction force) by a suction pump or the like connected to the gas communication port 8. Further, as described above, the liquid absorbing member 10 disposed between the end face (inlet) opening leading to the gas communication port (air suction port) 8 is provided inside the communication chamber 9.
Therefore, when the ink replenishment to the storage unit 2 proceeds and the ink level reaches the upper surface of the storage unit 2, that is, the lower surface of the porous member (gas-liquid separation member) 6 attached to the lid member 5, The ink replenishment is stopped by the water repellent action of the water repellent applied to the lower surface of the porous member 6 and the meniscus of the opening 7 formed in the porous member 6. In this embodiment, the magnitude of the suction pressure of the suction pump connected to the gas communication port 8 is adjusted so that ink replenishment stops in such a state.
[0025]
Thereafter, when recording is performed by ejecting ink from the ejection unit 1, the ink 15 in the storage unit 2 is gradually consumed for this recording, and the ink level is lowered. That is, since the level of the ink 15 in the storage unit 2 is lowered, ink replenishment from the replenishing port 3 is resumed at a predetermined appropriate timing.
In that case, if the ink adheres to the film portion (lower surface) of the porous member 6 due to the use over a long period of time, the meniscus retention (the meniscus against the ink of the film portion is affected by the sag of the adhered ink. (The performance of holding) may deteriorate, and ink may enter the communication chamber 9 through the porous member 6 to overflow the ink in the liquid storage container. In some cases, the ink may overflow due to a defect in the affixed portion of the film portion (lower surface) of the porous member 6 or deterioration of an adhesive for adhering. That is, due to the phenomenon as described above, the gas-liquid separation function of the porous member (porous film) 6 (function as a gas-liquid separation member that blocks ink as a liquid and separates ink and gas) ) Performance as a check valve is reduced, and ink leaks from the storage unit 2 to the communication chamber 9 as described above.
[0026]
3 shows a state where the leaked ink is held inside the liquid storage container when the ink leaks from the storage unit 2 to the communication chamber 9 in the liquid storage container of FIG. FIG. 4 is a longitudinal sectional view showing a state when air suction is further performed from the gas communication port 8 from the state of FIG. 3 as seen from a line 2-2 in FIG. Next, the ink holding state inside the liquid storage container when the above ink leakage occurs in the liquid storage container according to the present embodiment will be described with reference to FIGS. In the state shown in FIGS. 3 and 4, the ink 15 leaked from the storage unit 2 through the gas-liquid separation member 6 stays in the communication chamber 9, and in the state of FIG. It is limited to the vicinity of the porous member 6 as a member, and the state of FIG. 3 may be considered as an initial stage of ink leakage.
[0027]
FIG. 4 shows a state in which air suction from the gas communication port (air suction port) 8 is started in order to replenish the storage unit 2 with ink in the state of FIG. 3, the ink 15 leaked into the communication chamber 9 in FIG. 3 is gradually moved toward the inlet opening (end opening) of the gas communication port 8, and the ink is further transferred from the storage unit 2 into the communication chamber 9. It will leak.
However, according to the configuration of the present embodiment, all of the ink leaking into the communication chamber 9 is disposed in the communication chamber 9 and at a position adjacent to the opening (inlet portion) of the gas communication port 8. The liquid absorbing member 10 is blocked by the liquid absorbing member 10 and stops inside the communication chamber 9. Further, when such leaked ink is in a staying state, the air suction force from the gas communication port 8 is also blocked by the liquid absorbing member 10, so that the ink filling amount in the storage unit 2 is smaller than a predetermined amount (see FIG. 4), and recording is started in such a low ink level (small ink amount).
[0028]
However, when the recording is started in such a state, the ink amount with respect to the predetermined recording amount is insufficient. Therefore, the recording is interrupted in the middle, and the trouble of the liquid storage container is detected by detecting the interruption of the recording ( It is possible to recognize the occurrence of ink leakage. Therefore, as a result, even when the porous member 6 cannot function as a check valve for separating liquid (ink) and gas, ink leakage is stopped up to the inside of the communication chamber 9. It is possible to prevent the ink from leaking to the outside of the liquid storage container.
That is, according to the embodiment described with reference to FIGS. 1 to 4, the liquid replenishment (ink replenishment) configuration is inexpensive, the container configuration can be downsized, and even when liquid leakage (ink leakage) occurs. By stopping the leaked liquid (leakage ink) in the communication chamber, the liquid leak (ink leak) from the liquid storage container can be eliminated, and the liquid supply (ink) performance can be stabilized and the liquid leak (ink leak) can be prevented. There is no reliable liquid storage container provided.
[0029]
[Second Embodiment]
FIG. 5 is a schematic longitudinal sectional view showing the configuration of the second embodiment of the liquid storage container to which the present invention is applied. FIG. 5 is a longitudinal sectional view corresponding to FIG. 2 in the first embodiment.
In FIG. 5, in the second embodiment, an opening (inlet) connected to a gas-liquid separation member (porous member) 6 and a gas communication port (air suction port) 8 inside a communication chamber 9 formed in the lid member 5. A plurality (two in the illustrated example) of liquid absorbing members 11 and 10 are disposed between the opening and the opening. In the second embodiment shown in FIG. 5, in addition to the liquid absorbing member 10 of the first embodiment (FIG. 2), a liquid absorbing member 11 is added between the liquid absorbing member 10 and the gas-liquid separating member 6. Yes.
The second embodiment shown in FIG. 5 is different from the first embodiment in the internal structure of the communication chamber 9 of the lid member 5 as described above, and the other parts are the same as those in the first embodiment. It has substantially the same configuration as the case. Accordingly, the description of the first embodiment of FIGS. 1 to 4 is applied mutatis mutandis for the configuration of other portions, and the detailed description thereof is omitted.
[0030]
According to the second embodiment, as in the case of the first embodiment, the liquid replenishment (ink replenishment) configuration is inexpensive, the container configuration can be downsized, and liquid leakage (ink leakage) occurs. Even in this case, it is possible to eliminate the liquid leakage (ink leakage) from the liquid storage container by stopping the leakage liquid (leakage ink) in the communication chamber, and the liquid (ink) supply performance can be stabilized and the liquid leakage (ink leakage) can be achieved. ), A highly reliable liquid storage container is provided. In particular, when liquid leakage (ink leakage) to the communication chamber 9 occurs through the porous member 6 as described in FIGS. Leaked ink) can be stopped in the communication chamber 9 more reliably by the plurality of liquid absorbing members 11 and 10, and an effect that liquid leakage (ink leakage) from the liquid storage container can be more reliably prevented can be obtained.
[0031]
[Third embodiment]
FIG. 6 is a schematic longitudinal sectional view showing a configuration of a third embodiment of the liquid storage container to which the present invention is applied. FIG. 6 is a longitudinal sectional view corresponding to FIG. 2 in the first embodiment.
In FIG. 6, in the third embodiment, an opening (inlet) connected to a gas-liquid separation member (porous member) 6 and a gas communication port (air suction port) 8 inside a communication chamber 9 formed in the lid member 5. The liquid sensor 12 is disposed between the first and second openings. The liquid sensor 12 detects the presence / absence of ink in the communication chamber 9 (presence / absence of leaked ink), and the detection signal is sent to a recording device or the like via terminals 18 and 19 provided on the surface of the lid member 5. It is configured to be detected by the recording system. That is, in the third embodiment shown in FIG. 6, in the first embodiment (FIG. 2), the liquid sensor 12 is additionally arranged inside the communication chamber 9, and the ink in the communication chamber 9 is detected by the detection signal of the sensor. It is configured so that the presence or absence of leakage can be detected.
[0032]
That is, the third embodiment of FIG. 6 is different from the first embodiment described above in that the liquid sensor 12 detects the presence or absence of leaked ink inside the communication chamber 9 as described above. Other portions have substantially the same configuration as that of the first embodiment. Accordingly, the description of the first embodiment of FIGS. 1 to 4 is applied mutatis mutandis for the configuration of other portions, and the detailed description thereof is omitted.
According to the third embodiment, as in the case of the first embodiment, the liquid replenishment (ink replenishment) configuration is inexpensive, the container configuration can be downsized, and liquid leakage (ink leakage) occurs. Even in this case, the leakage liquid (leakage ink) is stopped in the communication chamber, so that the liquid leakage (ink leakage) from the liquid storage container can be eliminated, and the porous member 6 described with reference to FIGS. 3 and 4 is used. When a liquid leak (ink leak) to the communication chamber 9 occurs, the liquid sensor detects the liquid leak (ink leak) and detects the occurrence of a trouble based on this detection signal. The required control can be executed quickly and reliably, so that the liquid (ink) supply performance can be stabilized and a highly reliable liquid storage container free from liquid leakage (ink leakage) is provided.
[0033]
According to the liquid storage container 30 described above, the storage unit 2 for storing the liquid, the replenishment port 3 provided for replenishing the storage unit with the liquid, and the communication provided adjacent to the storage unit. A gas-liquid separation member 6 disposed so as to allow gas to permeate in the direction from the storage unit toward the communication chamber but not to transmit liquid, and a gas communication port 8 for communicating the communication chamber with the atmosphere. A liquid absorbing member 10 (11) disposed between the gas-liquid separating member and the gas communication port in the communication chamber, and from the storage unit 2 by suction from the gas communication port 8 The liquid is absorbed by the liquid absorbing member 10 (11) so that the suction force by the suction is cut off.
[0034]
Further, according to the ink jet recording apparatus described above, in the ink jet recording apparatus that performs recording by supplying ink from the liquid storage container 30 to the discharge unit unit 1 and discharging ink from the discharge unit unit to the recording medium, the liquid The storage container 30 includes a storage unit 2 in which liquid is stored, a replenishment port 3 provided for replenishing the storage unit with liquid, a communication chamber 9 provided adjacent to the storage unit, and the storage A gas-liquid separation member 6 disposed so as to allow gas to permeate in a direction from the section toward the communication chamber but not to transmit liquid, a gas communication port 8 for communicating the communication chamber with the atmosphere, and the communication chamber 9 A liquid absorbing member 10 (11) disposed between the gas-liquid separating member 6 and the gas communication port 8 in the interior of the gas, and the liquid from the storage unit 2 by suction from the gas communication port 8 Is configured to suction force by the suction by being absorbed in the liquid absorbing member 10 (11) is cut off.
[0035]
Further, in the above embodiment, the gas-liquid separation member 6 is a porous member, and a water repellent is applied to the surface of the porous member 6 on the storage unit 2 side. It is configured to be connected to a main tank (not shown) as a supply source. In the above embodiment, the liquid storage container 30 is mounted on an ink jet recording apparatus in which the discharge unit 1 is provided below the storage unit 2 and performs recording by discharging ink from the discharge unit to a recording medium. It is configured to be.
Further, in the second embodiment, the liquid absorbing member in the communication chamber 9 is constituted by a plurality of liquid absorbing members 10 and 11, and in the third embodiment, the communication is made. Inside the chamber 9, a configuration is adopted in which a liquid sensor 12 for detecting the presence or absence of liquid is disposed between the gas-liquid separation member 6 and the liquid absorbing member 10.
Furthermore, in the above embodiment, the liquid storage container 30 is mounted on a carriage 31 that is guided and supported so as to be movable along the recording medium, and the replenishment port 3 of the storage unit 2 is installed in the apparatus main body. It is connected to a main tank as an ink supply source.
[0036]
According to the configuration of the embodiment as described above, the replenishment unit 3 for replenishing the liquid is provided on the bottom surface of the storage unit 2, and gas is transmitted through the gas-liquid separation member 6 inside the lid member 5 of the storage unit 2. A communication chamber 9 communicated in a possible state is formed, a gas communication port 8 communicating with the atmosphere is provided in the communication chamber, and a liquid absorbing member 10 (11) is disposed inside the communication chamber 9, and the gas Since the liquid absorption member 10 (11) absorbs the liquid from the storage unit 2 by suction from the communication port 8, the suction force by the suction is cut off. By performing pressure suction, the liquid can be easily replenished from the replenishing port 3 to the storage unit 2, the liquid replenishment configuration is inexpensive, the container configuration can be downsized, and even if liquid leakage occurs, the leaked liquid Liquid storage container by stopping in the communication chamber 9 It is possible to eliminate the leakage of liquid from the 0, an ink jet recording apparatus is provided using a high liquid storage container and the container without reliable liquid leakage with stabilized liquid supply performance can be achieved.
[0037]
In the above embodiment, the case of a single liquid storage container having a discharge unit portion has been described as an example. However, the present invention may be configured to store a plurality of liquids of different types (color, concentration, etc.) or The present invention can be similarly applied to a single liquid storage container and an ink jet recording apparatus using the container, and the same effect can be achieved. Furthermore, the present invention is naturally applicable to a liquid storage container that stores processing liquid supplied to the discharge unit for purposes other than image formation, such as improving the fixability of recording paper in addition to recording ink. In fact, the present invention can be applied in the same manner and has the same effects.
[0038]
Further, the present invention uses a replaceable head cartridge in which the discharge unit portion (head portion) and the liquid storage container are integrated, and the liquid storage container (mounted on the carriage or the apparatus main body) on the discharge unit portion and the carriage. It can be similarly applied to any arrangement of the discharge unit and the liquid storage container, such as a structure in which the container is separated from the container and connected between them with a tube for supplying ink, etc. An effect is obtained. The present invention can also be applied to a case where the recording unit uses a discharge unit portion by another driving method, such as a discharge unit portion using an electromechanical transducer such as a piezo element. The same effect is obtained.
[0039]
【The invention's effect】
As apparent from the above description, according to the invention of the liquid storage container of claim 1, the storage part for storing the liquid, the replenishment port provided for replenishing the storage part with the liquid, and the storage part A communication chamber provided adjacent to the gas chamber, a gas-liquid separation member disposed so as to allow gas to permeate in a direction from the storage section toward the communication chamber, but not liquid, and to communicate the communication chamber with the atmosphere. And a liquid absorbing member disposed between the gas-liquid separation member and the gas communication port inside the communication chamber, and from the storage unit by suction from the gas communication port The liquid absorption member absorbs the liquid, so that the suction force due to the suction is cut off. Therefore, the liquid replenishment configuration is inexpensive, the container configuration can be downsized, and liquid leakage occurs. Even if the It is possible to eliminate the leakage of liquid from the liquid storage container by stopping indoors, stabilization of the liquid supply performance is high liquid storage container with no reliable liquid leakage is provided with improved.
[0040]
According to the second and third aspects of the invention, in addition to the above-described configuration, the gas-liquid separation member is a porous member, and a water repellent is applied to the surface of the porous member on the storage unit side. Thus, a liquid storage container that can efficiently achieve the above-described effect is provided.
According to the fourth and fifth aspects of the present invention, the replenishing port is connected to a main tank as a liquid supply source, or a discharge unit is provided below the storage unit, and recording is performed from the discharge unit. Since it is configured to be mounted on an ink jet recording apparatus that performs recording by discharging ink to a medium, a liquid storage container suitable for use in the ink jet recording apparatus is further provided.
According to Claims 6 and 7, the liquid absorbing member is composed of a plurality of liquid absorbing members, or a liquid is provided between the gas-liquid separating member and the liquid absorbing member in the communication chamber. Since the liquid sensor for detecting the presence or absence of the liquid is disposed, a liquid storage container that can achieve the above effect more efficiently is provided.
[0041]
According to an ink jet recording apparatus of an eighth aspect, in the ink jet recording apparatus that performs recording by supplying ink from a liquid storage container to a discharge unit and discharging ink from the discharge unit to a recording medium. The container includes a storage unit for storing a liquid, a replenishment port provided for replenishing the storage unit with a liquid, a communication chamber provided adjacent to the storage unit, and from the storage unit to the communication chamber. A gas-liquid separation member disposed so as to allow gas to permeate in a direction toward the direction but not liquid, a gas communication port for communicating the communication chamber to the atmosphere, and the gas-liquid separation member in the communication chamber And a liquid absorbing member disposed between the gas communicating port, and the suction from the gas absorbing port is absorbed by the liquid absorbing member by the suction from the gas communicating port. Since the suction force due is configured to be cut off,
Ink replenishment configuration is inexpensive and the container configuration can be downsized. Even if ink leakage occurs, ink leakage from the liquid storage container can be eliminated by stopping the leakage ink in the communication chamber. Provided is a highly reliable ink jet recording apparatus that can stabilize the supply performance and does not leak ink.
[0042]
According to the ninth and tenth aspects of the present invention, in addition to the configuration of the eighth aspect, the gas-liquid separation member is a porous member, and further, a water repellent agent is provided on the surface of the porous member on the storage section side. Therefore, an ink jet recording apparatus capable of efficiently achieving the above effects is provided.
According to the inventions of claims 11 and 12, the replenishing port is connected to a main tank as a liquid supply source, or a discharge unit is provided below the storage unit. An ink jet recording apparatus that can efficiently achieve the above effects is provided.
[0043]
According to the inventions of claims 13 and 14, the liquid absorbing member is constituted by a plurality of liquid absorbing members or between the gas-liquid separating member and the liquid absorbing member in the communication chamber. Since the liquid sensor for detecting the presence / absence of liquid is disposed, an ink jet recording apparatus that can achieve the above effect more efficiently is provided.
According to the fifteenth and sixteenth aspects of the present invention, the liquid storage container is mounted on a carriage that is guided and supported so as to be movable along the recording medium, or the replenishing port of the storage unit is a device. Since it is configured to be connected to a main tank as an ink supply source installed in the main body, an ink jet recording apparatus that can achieve the above effect more efficiently is provided.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing a partially broken configuration of a first embodiment of a liquid storage container to which the present invention is applied.
2 is a schematic longitudinal sectional view showing a state when a liquid is replenished in the liquid storage container of FIG. 1 as seen from a line 2-2 in FIG.
3 shows a state in which the leaked ink is held inside the liquid storage container when the ink leaks from the storage unit to the communication chamber in the liquid storage container of FIG. 2 as seen from the line 2-2 in FIG. It is a longitudinal cross-sectional view.
4 is a longitudinal sectional view showing a state when air suction is further performed from the gas communication port from the state of FIG. 3 as seen from line 2-2 in FIG. 1;
FIG. 5 is a schematic longitudinal sectional view showing a configuration of a second embodiment of the liquid storage container to which the present invention is applied.
FIG. 6 is a schematic longitudinal sectional view showing a configuration of a third embodiment of a liquid storage container to which the present invention is applied.
FIG. 7 is a schematic perspective view showing a schematic configuration of an embodiment of an ink jet recording apparatus provided with a liquid storage container to which the present invention is applied.
8 is a partial perspective view schematically showing a structure of an ink discharge portion (one discharge port array) of the discharge unit portion in FIG. 7. FIG.
[Explanation of symbols]
1 Discharge unit (head, recording means)
2 storage
3 Refill port
4 connections
5 Lid member
6 Gas-liquid separation member (porous member)
7 opening hole
8 Gas communication port
9 Contact room
10 Liquid absorbing member
11 Liquid absorbing member
12 Liquid sensor
15 Liquid (ink)
18 terminals
19 terminals
30 Liquid storage container
31 Carriage
32 Main guide rail
33 Sub guide rail
34 Carriage motor (main scanning motor)
37 Timing Belt
39 Platen
43 Ejection roller (Ejection roller)
45 Recovery device
46 cap
47 Conveyance motor (line feed motor)
81 Discharge port surface
82 Discharge port
83 Common liquid chamber
84 liquid channel
85 Electrothermal converter

Claims (16)

A storage unit for storing liquid, a replenishment port provided for replenishing the storage unit with liquid, a communication chamber provided adjacent to the storage unit, and a direction from the storage unit toward the communication chamber A gas-liquid separation member disposed so as to allow gas to permeate but not liquid, a gas communication port for communicating the communication chamber with the atmosphere, and the gas-liquid separation member and the gas in the communication chamber A liquid absorbing member disposed between the communication port and
The liquid storage container , wherein the suction force by the suction is blocked by the liquid absorbing member absorbing the liquid from the storage unit by the suction from the gas communication port .   The liquid storage container according to claim 1, wherein the gas-liquid separation member is a porous member.   The liquid storage container according to claim 2, wherein a water repellent is applied to a surface of the porous member on the storage unit side.   The liquid storage container according to claim 1, wherein the replenishing port is connected to a main tank as a liquid supply source.   5. The apparatus according to claim 1, wherein a discharge unit unit is provided below the storage unit, and is mounted on an ink jet recording apparatus that performs recording by discharging ink from the discharge unit unit to a recording medium. Liquid storage container.   The liquid storage container according to claim 1, wherein the liquid absorption member includes a plurality of liquid absorption members.   The liquid sensor for detecting the presence or absence of the liquid is arrange | positioned between the said gas-liquid separation member and the said liquid absorption member in the inside of the said communication chamber, The any one of Claims 1-6 characterized by the above-mentioned. A liquid storage container as described. In an inkjet recording apparatus that performs recording by supplying ink from a liquid storage container to a discharge unit, and discharging the ink from the discharge unit to a recording medium.
The liquid storage container includes a storage unit for storing a liquid, a replenishment port provided for replenishing the storage unit with a liquid, a communication chamber provided adjacent to the storage unit, and the storage unit. A gas-liquid separation member arranged so as to allow gas to permeate in a direction toward the communication chamber but not liquid; a gas communication port for communicating the communication chamber with the atmosphere; and the gas inside the communication chamber. A liquid absorbing member disposed between a liquid separating member and the gas communication port ,
2. An ink jet recording apparatus according to claim 1, wherein the suction force by the suction is interrupted by the liquid absorbing member absorbing the liquid from the storage unit by the suction from the gas communication port .   The inkjet recording apparatus according to claim 8, wherein the gas-liquid separation member is a porous member.   The ink jet recording apparatus according to claim 9, wherein a water repellent is applied to a surface of the porous member on the storage unit side.   11. The ink jet recording apparatus according to claim 8, wherein the replenishing port is connected to a main tank serving as a liquid supply source.   The inkjet recording apparatus according to claim 8, wherein a discharge unit portion is provided below the storage portion.   The ink jet recording apparatus according to claim 8, wherein the liquid absorbing member includes a plurality of liquid absorbing members.   The liquid sensor for detecting the presence or absence of a liquid is arrange | positioned in the inside of the said communication chamber between the said gas-liquid separation member and the said liquid absorption member, The any one of Claims 8-13 characterized by the above-mentioned. The ink jet recording apparatus described.   15. The ink jet recording apparatus according to claim 8, wherein the liquid storage container is mounted on a carriage that is guided and supported so as to be movable along the recording medium.   16. The ink jet recording apparatus according to claim 8, wherein the replenishing port of the storage unit is connected to a main tank serving as an ink supply source installed in the apparatus main body.

Images