JP6613093B2 - Inkjet recording device - Google Patents

Description

  The present invention relates to an ink jet recording apparatus.

  A technique related to an ink jet recording apparatus has been proposed. For example, Patent Document 1 discloses an ink jet printing apparatus. In the ink jet printing apparatus, the upper ink tank and the ink supply chamber are connected via an ink supply path. The ink recovery chamber, the lower ink tank, the pump, the temperature controller, and the upper ink tank are connected via an ink recovery path. When the lower ink tank is maintained at atmospheric pressure, the height position of the lower ink tank is determined so as to obtain an appropriate pressure at which a meniscus is generated in the nozzle due to a difference in water head between the lower ink tank and the nozzle of the inkjet head. A pressure adjusting unit provided in the lower ink tank depressurizes the air layer in the upper part of the lower ink tank. The ink in the upper ink tank is supplied into the ink supply chamber through the ink supply path. The ink is distributed from the ink supply chamber to a plurality of ink jet heads, and is ejected from each ink jet head onto the printing paper. Excess ink is temporarily stored in the lower ink tank from the ink recovery chamber through the ink recovery path, and is supplied to the upper ink tank via the temperature controller. The lower ink tank is connected to the ink bottle, and the ink in the ink bottle is supplied to the lower ink tank by turning on the third electromagnetic valve. The ink jet printing apparatus is provided with a bypass path that connects the ink supply path and the ink recovery path. A branch valve is provided at the connection between the bypass path and the ink supply path, and a junction valve is provided at the connection between the bypass path and the ink recovery path. The ink in the upper ink tank flows from the branch valve through the bypass path to the ink recovery path from the junction valve. That is, in the ink jet printing apparatus, ink is circulated by the first circulation path and the second circulation path.

  Patent Document 2 discloses an ink jet recording apparatus. In the ink jet recording apparatus, the ink tank communicates with the ink supply manifold via the first main flow path, and communicates with the ink recovery manifold via the second main flow path. A first liquid pump is connected to the first main channel, and a second liquid pump is connected to the second main channel. In the ink jet recording apparatus, ink is supplied from the ink tank to the ink supply manifold via the first main flow path. Ink is distributed and supplied into the head module from the supply port of each head module connected to the first branch flow path from the ink supply manifold through each first branch flow path. The ink circulated inside the head module is recovered to the ink recovery manifold through each second branch flow path connected to the discharge port of each head module, and further from the ink recovery manifold to the ink via the second main flow path. Ink is returned to the tank. In the ink jet recording apparatus, a predetermined pressure difference is set between the manifolds so that the internal pressure of the ink supply manifold is relatively higher than the internal pressure of the ink recovery manifold, and a predetermined negative pressure is applied to the ink in the head module. Is controlled so that the first liquid pump and the second liquid pump are driven. A bubble discharge bypass channel and a circulation bypass channel are provided between the ink supply manifold and the ink recovery manifold. The circulation bypass flow path can circulate ink directly from the ink supply manifold to the ink recovery manifold without passing through each head module.

Japanese Patent No. 5406778 JP 2011-79169 A

  In an ink jet recording apparatus, ink is ejected from nozzles of an ink jet head. According to the ink jet recording apparatus, an image can be recorded on a recording medium with high quality. The inventor studied an ink jet head having a structure formed by a plurality of head portions. In that case, the inventor considered the structure which provides a sub tank with respect to each head part. The sub tank stores the ink supplied from the main tank. The ink stored in the sub tank flows out of the sub tank and is supplied to the head unit. In the ink jet recording apparatus, by forming a stable meniscus on the nozzles of each head unit, it is possible to realize preferable ink discharge and to stabilize the quality of the recorded image. In order to stabilize the meniscus, for example, the amount of ink stored in the sub tank is adjusted to a predetermined range in a state where the space in which the ink is stored in the sub tank is maintained at a pressure lower than atmospheric pressure (negative pressure). There is a need.

  The ink is formed by, for example, dispersing predetermined components such as a colorant and an additive in a solvent. The contained component has a predetermined specific gravity. All or some of the contained components have a specific gravity greater than that of the solvent. Therefore, sedimentation of contained components may occur in the ink existing inside the ink jet recording apparatus. Such sedimentation is likely to occur, for example, when an ink jet recording apparatus does not record an image and the ink continuously stagnates in a certain place. When the contained component settles, the density changes, and quality deterioration such as density unevenness or distortion and deterioration of color reproducibility may occur in the ejection result.

  In an ink jet recording apparatus, ink may be forcibly ejected from nozzles formed in each head portion. Such ink ejection is performed to prevent nozzle clogging. When ink is forcibly ejected from a nozzle of a predetermined head portion, the ink is reduced in a sub tank that supplies ink to the head portion. The inventor has studied a configuration that can smoothly adjust the amount of ink stored in the sub-tank while circulating the ink.

  An object of the present invention is to provide an ink jet recording apparatus capable of smoothly adjusting the amount of ink stored in a sub tank in a state where ink is circulated.

One aspect of the present invention includes a main tank for storing ink, an inkjet head including a first nozzle and a second nozzle for ejecting the ink, said ink supplied from the main tank flows, the first nozzle A circulation channel for circulating the ink ejected from the second nozzle, a liquid feeding unit that is provided in the circulation channel and flows the ink through the circulation channel, the main tank, and the circulation channel connecting the door, said a supply channel in which the ink flows from the main tank is fed subjected to the circulation flow path, provided in the supply passage, and a supply valve for opening and closing the supply flow path, the ink-jet The head includes a first head portion in which the first nozzle is formed, a first sub tank that stores the ink supplied to the first head portion, and a second head in which the second nozzle is formed. And a second sub tank that stores the ink supplied to the second head portion, and the circulation channel is connected to the first sub tank, and the ink supplied to the first sub tank flows through the second sub tank. A first supply channel, the second sub-tank, the second supply channel through which the ink supplied to the second sub-tank flows, the first supply channel and the second supply channel, The ink that flows out from the first head portion is connected to the first manifold and the first head portion, which causes the ink to flow out to the first supply passage and the ink to flow out to the second supply passage. A first recovery channel, a second recovery channel that is connected to the second head portion and through which the ink flowing out from the second head portion flows, and the first recovery channel and the second recovery channel are connected. The first recovery channel The ink that has flowed in, the ink that has flowed through the second recovery flow path, and the second manifold, the second manifold, and the first manifold are connected to each other from the second manifold to the first manifold A connection flow path for flowing the ink through the first recovery flow path, a first recovery valve that opens and closes the first recovery flow path, and a second recovery flow path that is provided in the second recovery flow path. A second recovery valve that opens and closes the path, the first manifold and the second manifold are connected, a bypass flow path for flowing the ink from the first manifold to the second manifold, and provided in the bypass flow path, A bypass valve that opens and closes the bypass flow path, and the first sub tank is provided with a first detector that detects the amount of the ink stored in the first sub tank. The second sub-tank is provided with a second detector for detecting the amount of the ink stored in the second sub-tank, and when the amount of the ink detected by the first detector is a first amount, When the replenishment valve is in an open state, the first recovery valve is in a closed state, and the amount of the ink detected by the first detector is a second amount greater than the first amount, When the replenishing valve is in a closed state, the first recovery valve is in an open state, and the amount of the ink detected by the second detector is the first amount, the replenishing valve is When the second recovery valve is closed and the amount of the ink detected by the second detector is the second amount, the supply valve is closed. The second recovery valve is opened. State, and the bypass valve, when said first recovery valve and said second recovery valve is a closed state, the open state, an ink jet recording apparatus.

According to this ink jet recording apparatus, the outflow of ink from the first head unit can be stopped by closing the first recovery valve. Accordingly, the amount of ink stored in the first sub tank can be increased. By setting the second recovery valve in the closed state, the outflow of ink from the second head portion can be stopped. Accordingly, the amount of ink stored in the second sub tank can be increased. Ink can be circulated. Even when both the first recovery valve and the second recovery valve are closed, it is possible to continue to circulate ink. When both the first recovery valve and the second recovery valve are closed, the ink flows from the first manifold to the second manifold through the bypass channel, and further flows from the second manifold to the first manifold through the connection channel. When the amount of ink stored in the first sub tank is the first amount, it is possible to increase the amount of ink stored in the first sub tank while supplying ink from the main tank to the circulation channel. Thereafter, in a state where the amount of ink stored in the first sub-tank becomes the second amount, the supply of ink from the main tank to the circulation channel is stopped, and the circulation of the ink via the first head unit is resumed. be able to. When the amount of ink stored in the second sub tank is the first amount, the amount of ink stored in the second sub tank can be increased while supplying ink from the main tank to the circulation flow path. Thereafter, in a state where the amount of ink stored in the second sub tank becomes the second amount, the supply of ink from the main tank to the circulation flow path is stopped, and the circulation of ink through the second head portion is resumed. be able to.

In the ink jet recording apparatus, before Symbol bypass valve, when said first recovery valve and said second recovery valve is a state of being opened, the first and in a state in which the recovery valve is opened the second recovery valve When it is in a closed state, or when the first recovery valve is in a closed state and the second recovery valve is in an open state, it may be in a closed state.

According to this configuration, when the first recovery valve and the second recovery valve are in a closed state, ink can flow from the first manifold to the second manifold through the bypass flow path.

  The inkjet recording apparatus is provided in the first sub tank and heats the ink stored in the first sub tank, and the ink provided in the second sub tank and stored in the second sub tank. And a second heating unit that heats. According to this configuration, it is possible to heat the ink supplied from the first sub tank to the first head unit, and to adjust the temperature of the ink to a temperature suitable for ejection from the first nozzle. The ink supplied from the second sub tank to the second head part is heated, and the temperature of the ink can be adjusted to a temperature suitable for ejection from the second nozzle.

  According to the present invention, it is possible to obtain an ink jet recording apparatus that can smoothly adjust the amount of ink stored in a sub tank in a state where ink is circulated.

It is sectional drawing which shows an example of schematic structure of an inkjet recording device.

  Embodiments for carrying out the present invention will be described with reference to the drawings. The present invention is not limited to the configurations described below, and various configurations can be employed in the same technical idea. For example, some of the configurations shown below may be omitted or replaced with other configurations. Other configurations may be included.

<Inkjet recording apparatus>
In the ink jet recording apparatus 10, images are recorded on various recording media. Examples of the recording medium include fabric or building materials. Inks used for image recording are, for example, four colors of black, magenta, yellow, and cyan. However, you may make it use the ink of a different color from these inks of each color. The number of ink colors may be three or less or five or more. The embodiment will be described without distinguishing ink colors. In FIG. 1, the illustration regarding each part 15, 20, 60, 77, 80, 81 for every color is simplified. Hatching indicates a cross-sectioned portion.

  The inkjet recording apparatus 10 includes a main tank 15, an inkjet head 20, a circulation channel 60, a liquid feeding unit 77, a supply channel 80, a supply valve 81, and a control device 90. The main tank 15 stores ink. The inkjet head 20 includes a plurality of nozzles 24, 25, and 26. The inkjet head 20 ejects ink from a plurality of nozzles 24, 25, and 26. The ink supplied from the main tank 15 flows through the circulation channel 60. The ink ejected from the plurality of nozzles 24, 25, 26 is circulated by the circulation channel 60. Other description regarding the inkjet head 20 and the circulation flow path 60 will be described later. The liquid feeding unit 77 is provided in the circulation channel 60 and causes ink to flow through the circulation channel 60. The ink is circulated through the circulation channel 60 by the liquid feeding unit 77. As the liquid feeding unit 77, a known pump is exemplified. However, a known mechanism different from the pump can be employed as the liquid feeding unit 77.

  The supply channel 80 connects the main tank 15 and the circulation channel 60. Ink supplied from the main tank 15 to the circulation channel 60 flows through the supply channel 80. The supply valve 81 is provided in the supply flow path 80. The supply valve 81 is an electromagnetic valve and opens and closes the supply flow path 80. The replenishment valve 81 is opened when ink is supplied from the main tank 15 to the circulation flow path 60. The supply valve 81 is closed when the supply of ink from the main tank 15 to the circulation flow path 60 is stopped.

  The control device 90 includes a control unit 91, a connection interface 95, and a power source 96. In the embodiment, the connection interface 95 is described as “connection I / F 95”. The control unit 91 controls various operations executed by the inkjet recording apparatus 10. For example, the control unit 91 controls the ejection of ink from the inkjet head 20. The controller 91 controls the opening and closing of each valve described later. The control unit 91 includes, for example, a CPU 92, a storage unit 93, and a RAM 94. The CPU 92 executes arithmetic processing. The storage unit 93 is, for example, a nonvolatile memory and / or a hard disk. The storage unit 93 stores programs for various operations executed by the inkjet recording apparatus 10. The RAM 94 serves as a work area when the CPU 92 executes the program stored in the storage unit 93.

  A supply valve 81 is connected to the connection I / F 95. In addition, detectors 49, 50, 51, recovery valves 70, 71, 72, and a bypass valve 74 are connected to the connection I / F 95. An opening signal and a closing signal output from the control unit 91 are output from the connection I / F 95 to the recovery valves 70, 71, 72, the bypass valve 74, and the supply valve 81. The liquid level signal output from each of the detectors 49, 50, 51 is input to the control device 90 via the connection I / F 95. The liquid level signal is output from the connection I / F 95 to the controller 91. Heating units 52, 53 and 54 are connected to the power source 96. The power source 96 supplies power to the heating units 52, 53, and 54. The detectors 49, 50, 51, the liquid level signal, the heating units 52, 53, 54, the recovery valves 70, 71, 72, and the bypass valve 74 will be described later. In FIG. 1, the connection I / F 95 is connected to the detectors 49, 50, 51, the recovery valves 70, 71, 72, the bypass valve 74, and the replenishment valve 81, and the power supply 96 is connected to the heating units 52, 53, 54. Illustration of wiring is omitted.

<Inkjet head>
The inkjet head 20 includes a plurality of head portions, a carriage 42, and a plurality of sub tanks. In the inkjet head 20, one sub tank is provided for one head portion. In the embodiment, the number of head portions provided in one inkjet head 20 is three. Therefore, the number of sub tanks provided in one inkjet head 20 is three. The three head portions are referred to as “head portion 21”, “head portion 22”, and “head portion 23”. The three sub tanks are referred to as “sub tank 43”, “sub tank 44”, and “sub tank 45”. The sub tank 43 is provided for the head unit 21. The sub tank 44 is provided for the head unit 22. The sub tank 45 is provided for the head portion 23. The number of head portions and the number of sub-tanks included in one inkjet head 20 may be two or four or more. The number of head portions and the number of sub-tanks included in one inkjet head 20 are appropriately determined in consideration of various conditions.

  The head parts 21, 22, and 23 have the same configuration. The sub tanks 43, 44, and 45 have the same configuration. In the embodiment, the sub tank 43 is attached to the upper side of the head portion 21 in the vertical direction. The sub tank 44 is attached to the upper side of the head portion 22 in the vertical direction. The sub tank 45 is attached to the upper side of the head portion 23 in the vertical direction. The head portions 21, 22, and 23 are mounted on the carriage 42 with the sub tanks 43, 44, and 45 attached thereto. In the head portion 21, a plurality of nozzles 24, an inlet 27, an outlet 30, and an internal flow path 33 are formed. In the head portion 22, a plurality of nozzles 25, an inlet 28, an outlet 31, and an internal channel 34 are formed. A plurality of nozzles 26, inlets 29, outlets 32, and internal flow paths 35 are formed in the head portion 23. In the inkjet head 20, ink is ejected from nozzles 24, 25, and 26 formed in the head portions 21, 22, and 23, respectively. In FIG. 1, the number of nozzles 24, 25, and 26 is four each. The number and arrangement of the nozzles 24, 25, and 26 are appropriately determined in consideration of various conditions.

  The ink supplied from the sub tank 43 to the head unit 21 flows into the head unit 21 from the inflow port 27. The ink supplied to the head unit 21 is ejected from the nozzle 24 or flows out from the outlet 30. The internal flow path 33 includes a main flow part 36 and a plurality of branch parts 39. The main flow part 36 connects the inlet 27 and the outlet 30. The branch portion 39 branches from the main flow portion 36 and is connected to the nozzle 24. That is, the ink flows into the head portion 21 from the inlet 27, flows through the main flow portion 36 toward the outlet 30, and then flows out from the outlet 30 to the circulation channel 60. A part of the ink flowing through the main flow part 36 flows into the branch part 39 and flows toward the nozzle 24.

  The ink supplied from the sub tank 44 to the head unit 22 flows into the head unit 22 from the inflow port 28. The ink supplied to the head unit 22 is ejected from the nozzle 25 or flows out from the outflow port 31. The internal flow path 34 includes a main flow part 37 and a plurality of branch parts 40. The main flow part 37 connects the inlet 28 and the outlet 31. The tributary portion 40 branches from the main flow portion 37 and is connected to the nozzle 25. That is, the ink flows into the head portion 22 from the inflow port 28, flows through the main flow portion 37 toward the outflow port 31, and then flows out from the outflow port 31 to the circulation channel 60. Part of the ink flowing through the main flow portion 37 flows into the branch portion 40 and flows toward the nozzle 25.

  The ink supplied from the sub tank 45 to the head unit 23 flows into the head unit 23 from the inflow port 29. The ink supplied to the head unit 23 is ejected from the nozzle 26 or flows out from the outflow port 32. The internal flow path 35 includes a main flow part 38 and a plurality of branch parts 41. The main flow part 38 connects the inlet 29 and the outlet 32. The branch portion 41 branches from the main flow portion 38 and is connected to the nozzle 26. That is, the ink flows into the head portion 23 from the inflow port 29, flows through the main flow portion 38 toward the outflow port 32, and then flows out from the outflow port 32 to the circulation channel 60. A part of the ink flowing through the main flow part 38 flows into the branch part 41 and flows toward the nozzle 26.

  The sub tank 43 stores the ink supplied to the head unit 21. The sub tank 44 stores the ink supplied to the head unit 22. The sub tank 45 stores the ink supplied to the head unit 23. In the embodiment, the space formed inside the sub tank 43 is referred to as a “reservoir chamber 46”. In the sub tank 43, the ink is stored in the storage chamber 46. A space formed inside the sub tank 44 is referred to as a “reservoir chamber 47”. In the sub tank 44, the ink is stored in the storage chamber 47. A space formed inside the sub tank 45 is referred to as a “reservoir chamber 48”. In the sub tank 45, the ink is stored in the storage chamber 48.

  The sub tanks 43, 44, and 45 are connected to the atmospheric pressure adjustment system, respectively. The atmospheric pressure adjustment system includes a vacuum pump and a compressor. The vacuum pump sets the pressure in the storage chambers 46, 47, and 48 to a pressure (negative pressure) lower than the atmospheric pressure. The compressor sets the pressure in the storage chambers 46, 47, and 48 to a pressure higher than the atmospheric pressure. That is, in the sub tanks 43, 44, and 45, the air pressure in the storage chambers 46, 47, and 48 in a state where ink is stored is adjusted by the air pressure adjustment system. In FIG. 1, illustration of the atmospheric pressure adjustment system is omitted.

  In the inkjet recording apparatus 10, when an image is recorded on a recording medium, the storage chambers 46, 47, and 48 are in a state of communicating with a vacuum pump. In the inkjet recording apparatus 10, the inkjet head 20 includes a plurality of nozzles 24 of the head unit 21, a plurality of nozzles 25 of the head unit 22, and a plurality of nozzles 26 of the head unit 23. When the ink is forcibly ejected from the nozzles, the storage chamber of the sub tank corresponding to the head portion to be operated among the sub tanks 43, 44, and 45 is in a state of communicating with the compressor.

  The sub tank 43 is provided with a detector 49 and a heating unit 52. The detector 49 detects the amount of ink stored in the sub tank 43. The heating unit 52 heats the ink stored in the sub tank 43. The sub tank 44 is provided with a detector 50 and a heating unit 53. The detector 50 detects the amount of ink stored in the sub tank 44. The heating unit 53 heats the ink stored in the sub tank 44. The sub tank 45 is provided with a detector 51 and a heating unit 54. The detector 51 detects the amount of ink stored in the sub tank 45. The heating unit 54 heats the ink stored in the sub tank 45.

  As the detectors 49, 50, 51, known sensors that can detect the amount of ink stored in the sub tanks 43, 44, 45 are employed. For example, as the detectors 49, 50, 51, known liquid level sensors are employed. The type of sensor employed as the detectors 49, 50, 51 is appropriately determined in consideration of various conditions. In the embodiment, the detection of the amount of ink by the detectors 49, 50, 51 is performed by detecting the liquid level of the ink stored in the sub tanks 43, 44, 45.

  The detectors 49, 50, 51 output a liquid level signal. The liquid level signal is a detection signal indicating the level of the ink level detected by each of the detectors 49, 50, 51. The liquid level signal output from the detectors 49, 50, 51 when the amount of ink is the first amount or when the amount of ink is less than the first amount is referred to as a “lower limit value signal”. The liquid level signal output from the detectors 49, 50, 51 when the amount of ink is the second amount or when the amount of ink exceeds the second amount is referred to as an “upper limit signal”. The first amount is determined in advance as a lower limit value of the amount of ink stored in the sub tanks 43, 44, 45. For example, in the inkjet recording apparatus 10, when the air pressure in the storage chamber 46 of the sub tank 43 is increased and the ink stored in the sub tank 43 is forcibly discharged from the nozzle 24 of the head unit 21, the ink is stored in the sub tank 43. The amount of ink is less than or equal to the first amount. The second amount is determined in advance as an upper limit value of the amount of ink stored in the sub tanks 43, 44, 45.

  As the heating units 52, 53, and 54, known electric heaters are employed. For example, as the heating units 52, 53, and 54, a known sheet-shaped rubber heater is employed. When a sheet-like rubber heater is employed as the heating units 52, 53, and 54, the rubber heater is affixed to the entire circumference of the outer peripheral surfaces of the sub tanks 43, 44, and 45, respectively. The heat of the sheet-like rubber heater conducts heat to the sub tanks 43, 44, and 45, respectively, and the sub tanks 43, 44, and 45 are heated by this heat. Accordingly, the ink stored in the sub tanks 43, 44, 45 is heated.

<Circulation channel>
The circulation channel 60 includes a supply channel 61, 62, 63, a first manifold 64, a recovery channel 65, 66, 67, a second manifold 68, a connection channel 69, and recovery valves 70, 71, 72, a bypass flow path 73, and a bypass valve 74 are provided. In FIG. 1, an arrow shown in the vicinity or inside of each part forming the circulation channel 60 indicates the direction in which ink flows in that part.

  The supply flow path 61 is connected to the sub tank 43. Ink supplied to the sub tank 43 flows through the supply channel 61. The supply flow path 62 is connected to the sub tank 44. Ink supplied to the sub tank 44 flows through the supply flow path 62. The supply flow path 63 is connected to the sub tank 45. Ink supplied to the sub tank 45 flows through the supply flow path 63. Supply passages 61, 62, and 63 are connected to the first manifold 64. The first manifold 64 causes ink to flow out to the supply channel 61, causes ink to flow out to the supply channel 62, and causes ink to flow out to the supply channel 63. That is, the first manifold 64 distributes the ink supplied to the circulation channel 60 to the supply channels 61, 62, and 63, respectively.

  The recovery flow path 65 is connected to the head portion 21 and the ink flowing out from the head portion 21 flows. The recovery flow channel 66 is connected to the head unit 22 and the ink flowing out from the head unit 22 flows. The recovery channel 67 is connected to the head unit 23, and the ink flowing out from the head unit 23 flows. Collection passages 65, 66, and 67 are connected to the second manifold 68. Ink that has flowed through the recovery flow path 65 flows into the second manifold 68, ink that has flowed through the recovery flow path 66 flows in, and ink that flows through the recovery flow path 67 flows into the second manifold 68. Regarding the illustration of the supply flow paths 62 and 63 and the second manifold 68, in FIG. 1, the supply flow paths 62 and 63 and the second manifold 68 are arranged in a state where the second manifold 68 is provided on the back side with respect to the supply flow paths 62 and 63. Two manifolds 68 are shown superimposed.

  The connection channel 69 connects the second manifold 68 and the first manifold 64. The connection channel 69 allows ink to flow from the second manifold 68 to the first manifold 64. That is, the ink that flows out from the second manifold 68 and flows into the first manifold 64 flows through the connection channel 69. The ink flowing out from the second manifold 68 flows through the connection channel 69 and flows into the first manifold 64. The connection channel 69 is provided with a liquid feeding section 77 and connected to the replenishment channel 80. In the embodiment, the connection position with the replenishment flow path 80 is a position between the second manifold 68 and the liquid feeding unit 77. The ink that flows from the main tank 15 through the supply channel 80 and is supplied to the circulation channel 60 at the connection position described above flows into the connection channel 69 and then circulates through the circulation channel 60 through the liquid feeding unit 77. . Regarding the illustration of the connecting channel 69 and the replenishing channel 80, in FIG. 1, the connecting channel 69 and the replenishing channel 80 are overlapped in a state where the connecting channel 69 is provided in front of the replenishing channel 80. It is shown in the figure.

  The recovery valve 70 is provided in the recovery channel 65 and opens and closes the recovery channel 65. When the recovery valve 70 is open, the ink flowing out from the head portion 21 flows through the recovery flow path 65 toward the second manifold 68. When the recovery valve 70 is closed, the above-described ink flow toward the second manifold 68 is blocked. That is, the circulation of ink through the head unit 21 is stopped. Accordingly, the amount of ink stored in the sub tank 43 can be increased. For example, the recovery valve 70 is closed when the amount of ink stored in the sub tank 43 is small and the amount of ink stored in the sub tank 43 is increased. The recovery valve 70 is opened when the amount of ink stored in the sub tank 43 is not in the state described above.

  The collection valve 71 is provided in the collection channel 66 and opens and closes the collection channel 66. When the recovery valve 71 is in an open state, the ink flowing out from the head unit 22 flows through the recovery channel 66 toward the second manifold 68. When the recovery valve 71 is closed, the above-described ink flow toward the second manifold 68 is blocked. That is, the ink circulation through the head unit 22 is stopped. Accordingly, the amount of ink stored in the sub tank 44 can be increased. For example, the recovery valve 71 is closed when the amount of ink stored in the sub tank 44 is small and the amount of ink stored in the sub tank 44 is increased. The recovery valve 71 is opened when the amount of ink stored in the sub tank 44 is not in the state described above.

  The collection valve 72 is provided in the collection channel 67 and opens and closes the collection channel 67. When the recovery valve 72 is open, the ink flowing out from the head unit 23 flows through the recovery flow path 67 toward the second manifold 68. When the recovery valve 72 is closed, the above-described ink flow toward the second manifold 68 is blocked. That is, the circulation of ink through the head unit 23 is stopped. Accordingly, the amount of ink stored in the sub tank 45 can be increased. For example, the collection valve 72 is closed when the amount of ink stored in the sub tank 45 is small and the amount of ink stored in the sub tank 45 is increased. The recovery valve 72 is opened when the amount of ink stored in the sub tank 45 is not in the state described above.

  The bypass flow path 73 connects the first manifold 64 and the second manifold 68. The bypass channel 73 causes ink to flow from the first manifold 64 to the second manifold 68. That is, the ink flowing out from the first manifold 64 and flowing into the second manifold 68 flows through the bypass flow path 73. The ink flowing out from the first manifold 64 flows through the bypass flow path 73 and flows into the second manifold 68. The bypass valve 74 is provided in the bypass channel 73 and opens and closes the bypass channel 73. When the bypass valve 74 is open, the ink flowing out from the first manifold 64 flows through the bypass flow path 73 toward the second manifold 68. When the bypass valve 74 is closed, the above-described ink flow toward the second manifold 68 is blocked. For example, the bypass valve 74 is in a closed state when a part or all of the recovery valves 70, 71, 72 are opened, and is in a state in which all of the recovery valves 70, 71, 72 are closed. If there is, it is left open. When all of the recovery valves 70, 71, 72 are closed and the bypass valve 74 is opened, the ink flowing through the connection channel 69 and flowing into the first manifold 64 is supplied to the supply channels 61, 62, 63. Without flowing into the first manifold 64, flows out from the first manifold 64, and flows through the bypass passage 73 toward the second manifold 68.

<Opening / closing operation of each valve and replenishment valve of the circulation channel>
Two embodiments of the opening / closing operations of the recovery valves 70, 71, 72 and the bypass valve 74 provided in the circulation flow path 60 and the supply valve 81 provided in the supply flow path 80 will be described. The opening and closing of the collection valves 70, 71, 72, the bypass valve 74, and the replenishing valve 81 are controlled by the control unit 91 (CPU 92).

<First Example>
The first embodiment is premised on the case where the amount of ink stored in the sub tank 43 becomes the first amount or falls below the first amount. Regarding the states of the recovery valves 70, 71, 72, the bypass valve 74, and the supply valve 81, the recovery valves 70, 71, 72 are in an open state, and the bypass valve 74 and the supply valve 81 are in a closed state. ing. The liquid feeding unit 77 is driven.

  When the amount of ink stored in the sub tank 43 becomes equal to or less than the first amount, the detector 49 outputs a lower limit signal. The lower limit signal from the detector 49 is input to the control device 90 via the connection I / F 95. The control unit 91 acquires the lower limit signal from the detector 49. The controller 91 outputs a closing signal to the recovery valve 70. The closing signal is output from the connection I / F 95 to the recovery valve 70. The recovery valve 70 switches to a closed state. The control unit 91 outputs an open signal to the replenishing valve 81 when the lower limit signal from the detector 49 is acquired. The release signal is output from the connection I / F 95 to the supply valve 81. The supply valve 81 is switched to the opened state. The recovery valves 71 and 72 are left in an opened state, and the bypass valve 74 is kept in a closed state.

  In the ink jet recording apparatus 10, the ink stored in the main tank 15 flows through the replenishment flow path 80 and is supplied to the circulation flow path 60, and the ink including newly supplied ink is circulated through the circulation flow path 60. . When the recovery valve 70 is closed, the flow of ink flowing out from the head portion 21 toward the second manifold 68 through the recovery flow path 65 is blocked. Ink circulation through the head portion 21 is stopped, and the amount of ink stored in the sub tank 43 gradually increases. In the first embodiment, the ink is circulated in the circulation channel 60 through the head units 22 and 23 without passing through the head unit 21 and the bypass channel 73.

  When the amount of ink stored in the sub tank 43 becomes equal to or larger than the second amount, the detector 49 outputs an upper limit signal. The upper limit value signal from the detector 49 is input to the control device 90 via the connection I / F 95. The control unit 91 acquires an upper limit signal from the detector 49. The controller 91 outputs an open signal to the recovery valve 70. The opening signal is output from the connection I / F 95 to the recovery valve 70. The recovery valve 70 switches to an open state. When the controller 91 outputs an opening signal to the recovery valve 70, the controller 91 outputs a closing signal to the supply valve 81. The output of the closing signal to the replenishing valve 81 is executed when the closing signal is output to the collecting valve to which the opening signal is output, among the collecting valves 70, 71, 72. Therefore, in the first embodiment, the controller 91 outputs a closing signal to the replenishing valve 81 when outputting a closing signal to the recovery valve 70. The closing signal is output from the connection I / F 95 to the supply valve 81. The replenishing valve 81 switches to a closed state.

In the inkjet recording apparatus 10, with the output of the closing signal of the output of the open signal to the recovery valve 70 to the supply valve 81, supply of the ink into the circulation flow path 60 from the main tank 15 is stopped, the head portion 21 The circulation of the ink passing therethrough is resumed.

<Second Example>
The second embodiment is premised on the case where the amount of each ink stored in all of the sub tanks 43, 44, 45 becomes the first amount or falls below the first amount. Regarding the states of the recovery valves 70, 71, 72, the bypass valve 74, and the supply valve 81, the recovery valves 70, 71, 72 are in an open state, and the bypass valve 74 and the supply valve 81 are in a closed state. ing. The liquid feeding unit 77 is driven.

  When the amount of ink stored in the sub tank 43 becomes equal to or less than the first amount, the detector 49 outputs a lower limit signal. When the amount of ink stored in the sub tank 44 is equal to or less than the first amount, the detector 50 outputs a lower limit signal. When the amount of ink stored in the sub tank 45 becomes equal to or less than the first amount, the detector 51 outputs a lower limit signal. The lower limit signal from the detectors 49, 50, 51 is input to the control device 90 via the connection I / F 95. The control unit 91 acquires the lower limit signal from the detectors 49, 50, 51.

  The control unit 91 outputs a closing signal to the recovery valve 70 when the lower limit signal from the detector 49 is acquired. The closing signal is output from the connection I / F 95 to the recovery valve 70. The recovery valve 70 switches to a closed state. The control unit 91 outputs a closing signal to the recovery valve 71 when the lower limit signal from the detector 50 is acquired. The closing signal is output from the connection I / F 95 to the recovery valve 71. The recovery valve 71 is switched to a closed state. When the control unit 91 acquires the lower limit signal from the detector 51, it outputs a closing signal to the recovery valve 72. The closing signal is output from the connection I / F 95 to the recovery valve 72. The recovery valve 72 is switched to a closed state.

  The control unit 91 outputs an open signal to the replenishment valve 81 when the lower limit signal from any one of the detectors 49, 50, 51 is acquired. The release signal is output from the connection I / F 95 to the supply valve 81. The supply valve 81 is switched to the opened state. The controller 91 outputs an open signal to the bypass valve 74 when all the lower limit signals from the detectors 49, 50, 51 are acquired. The opening signal is output from the connection I / F 95 to the bypass valve 74. The bypass valve 74 switches to an open state.

  In the ink jet recording apparatus 10, the ink stored in the main tank 15 flows through the replenishment flow path 80 and is supplied to the circulation flow path 60, and the ink including newly supplied ink is circulated through the circulation flow path 60. . When the recovery valve 70 is closed, the flow of ink flowing out from the head portion 21 toward the second manifold 68 through the recovery flow path 65 is blocked. Ink circulation through the head portion 21 is stopped, and the amount of ink stored in the sub tank 43 gradually increases. When the recovery valve 71 is closed, the flow of ink flowing out from the head unit 22 toward the second manifold 68 through the recovery flow path 66 is blocked. Ink circulation through the head unit 22 is stopped, and the amount of ink stored in the sub tank 44 gradually increases. When the recovery valve 72 is closed, the flow of ink flowing out from the head unit 23 toward the second manifold 68 through the recovery flow path 67 is blocked. The circulation of ink through the head unit 23 is stopped, and the amount of ink stored in the sub tank 45 gradually increases.

In the circulation flow path 60, the first manifold 64 and the second manifold 68 are communicated with each other by the bypass flow path 73 by switching the bypass valve 74 to the opened state, and the ink flows from the first manifold 64 to the bypass flow path 73. And flows into the second manifold 68. In the second embodiment, the ink is circulated in the circulation channel 60 without going through the head portions 21, 22, and 23.

  When the amount of ink stored in the sub tank 43 becomes equal to or larger than the second amount, the detector 49 outputs an upper limit signal. The upper limit value signal from the detector 49 is input to the control device 90 via the connection I / F 95. The control unit 91 acquires an upper limit signal from the detector 49. The controller 91 outputs an open signal to the recovery valve 70. The opening signal is output from the connection I / F 95 to the recovery valve 70. The recovery valve 70 switches to an open state. When the amount of ink stored in the sub tank 44 becomes equal to or larger than the second amount, the detector 50 outputs an upper limit signal. The upper limit value signal from the detector 50 is input to the control device 90 via the connection I / F 95. The control unit 91 acquires the upper limit value signal from the detector 50. The controller 91 outputs an open signal to the recovery valve 71. The release signal is output from the connection I / F 95 to the recovery valve 71. The recovery valve 71 switches to an open state. When the amount of ink stored in the sub tank 45 becomes equal to or larger than the second amount, the detector 51 outputs an upper limit signal. The upper limit value signal from the detector 51 is input to the control device 90 via the connection I / F 95. The control unit 91 acquires an upper limit signal from the detector 51. The controller 91 outputs an open signal to the recovery valve 72. The release signal is output from the connection I / F 95 to the recovery valve 72. The recovery valve 72 switches to an open state.

  When the control unit 91 outputs an open signal to any one of the recovery valves 70, 71, 72, the control unit 91 outputs a close signal to the bypass valve 74. The closing signal is output from the connection I / F 95 to the bypass valve 74. The bypass valve 74 switches to a closed state. The controller 91 outputs a closing signal to the replenishing valve 81 when the opening signal is output to all of the recovery valves 70, 71, 72. As described above, the closing signal is output to the replenishing valve 81 when the closing signal is output to the collecting valve 70, 71, 72 from which the opening signal is output. Therefore, in the second embodiment, the controller 91 outputs a closing signal to the replenishing valve 81 when outputting the closing signal to all of the recovery valves 70, 71, 72. The closing signal is output from the connection I / F 95 to the supply valve 81. The replenishing valve 81 switches to a closed state.

In the inkjet recording apparatus 10, the circulation through the bypass flow path 73 is stopped in response to the output of the open signal to any one of the recovery valves 70, 71, 72, and the recovery valves 70, 71, with the output of the closing signal to the open signal of the output and the bypass valve 74 and replenishing valve 81 to 72, supply of ink from the main tank 15 to the circulation flow path 60 is stopped, the head portion 21, 22, 23 The ink circulation via the is resumed.

<Effect of embodiment>
According to the embodiment, the following effects can be obtained.

  (1) In the circulation channel 60, a recovery valve 70 is provided in the recovery channel 65, a recovery valve 71 is provided in the recovery channel 66, and a recovery valve 72 is provided in the recovery channel 67. Therefore, the outflow of ink from the head portion 21 can be stopped by closing the recovery valve 70. Accordingly, the amount of ink stored in the sub tank 43 can be increased. By setting the recovery valve 71 in a closed state, the outflow of ink from the head unit 22 can be stopped. Accordingly, the amount of ink stored in the sub tank 44 can be increased. By setting the recovery valve 72 in a closed state, the outflow of ink from the head unit 23 can be stopped. Accordingly, the amount of ink stored in the sub tank 45 can be increased.

  (2) In the circulation channel 60, a bypass channel 73 is provided, and a bypass valve 74 is provided in the bypass channel 73. In the inkjet head 20, a detector 49 is provided in the sub tank 43, a detector 50 is provided in the sub tank 44, and a detector 51 is provided in the sub tank 45. The detector 49 outputs a lower limit signal when the amount of ink stored in the sub tank 43 is equal to or less than the first amount, and outputs an upper limit value when the amount of ink stored in the sub tank 43 is equal to or greater than the second amount. Output a signal. The detector 50 outputs a lower limit signal when the amount of ink stored in the sub tank 44 is equal to or less than the first amount, and the upper limit value when the amount of ink stored in the sub tank 44 is equal to or greater than the second amount. Output a signal. The detector 51 outputs a lower limit signal when the amount of ink stored in the sub tank 45 is less than or equal to the first amount, and the upper limit value when the amount of ink stored in the sub tank 45 is greater than or equal to the second amount. Output a signal. The control unit 91 (CPU 92) controls the recovery valves 70, 71, 72, the bypass valve 74, and the replenishing valve 81 according to the liquid level signal (lower limit signal or upper limit signal) from the detectors 49, 50, 51. A close signal and / or an open / close signal is output for some or all of the signals.

  Therefore, for example, when the amount of ink stored in the sub tank 43 is equal to or less than the first amount, the amount of ink stored in the sub tank 43 is increased while supplying ink from the main tank 15 to the circulation flow path 60. Can do. After that, in a state where the amount of ink stored in the sub tank 43 is equal to or larger than the second amount, the supply of ink from the main tank 15 to the circulation flow path 60 is stopped, and the ink circulation via the head portion 21 is resumed. Can be made. When all of the recovery valves 70, 71, 72 are closed, ink can flow from the first manifold 64 to the second manifold 68 through the bypass flow path 73. Even when all of the recovery valves 70, 71, 72 are closed, the ink can be continuously circulated. It is possible to prevent the ink from flowing through the circulation channel 60 and the ink pressure from increasing. The liquid feeding part 77 can be protected and failure of the liquid feeding part 77 can be suppressed.

  The bypass valve 74 is closed when any of the collection valves 70, 71, 72 is open. In this case, in the circulation channel 60, the ink is circulated through the recovery channel provided with an open recovery valve among the recovery channels 65, 66, and 67.

  (3) In the inkjet head 20, the heating unit 52 is provided in the sub tank 43, the heating unit 53 is provided in the sub tank 44, and the heating unit 54 is provided in the sub tank 45. Therefore, the ink supplied from the sub tank 43 to the head unit 21 can be heated, and the temperature of the ink can be adjusted to a temperature suitable for ejection from the nozzle 24. The ink supplied from the sub tank 44 to the head unit 22 can be heated, and the temperature of the ink can be adjusted to a temperature suitable for ejection from the nozzle 25. The ink supplied from the sub tank 45 to the head unit 23 can be heated, and the temperature of the ink can be adjusted to a temperature suitable for ejection from the nozzle 26.

<Modification>
The embodiment can also be performed as follows. Some configurations of the modifications shown below can be appropriately combined and employed. Hereinafter, points different from the above will be described, and description of similar points will be omitted as appropriate.

  (1) Although not described above, the ink jet recording apparatus 10 may be either a serial type or a line type. That is, the circulation channel 60 can be employed regardless of the type of the inkjet recording apparatus 10. When the inkjet recording apparatus 10 is a serial type, the inkjet recording apparatus 10 includes a moving unit that reciprocates the carriage 42 in the main scanning direction. Image recording on the recording medium is performed while the carriage 42 is reciprocated in the main scanning direction. When the inkjet recording apparatus 10 is a line type, the plurality of nozzles 24, 25, and 26 are arranged in the direction of the width of the recording medium that coincides with the main scanning direction. Serial type or line type ink jet recording apparatuses are already in practical use and both are well known. Therefore, the other description regarding these is abbreviate | omitted.

  (2) The heating unit 52 is provided in the sub tank 43, the heating unit 53 is provided in the sub tank 44, and the heating unit 54 is provided in the sub tank 45. In the ink jet head, the heating units 52, 53, and 54 may be omitted. In addition, a heating unit may be provided in any of the circulation channels 60, and the ink flowing in the region may be heated in the region where the heating unit is provided.

  (3) The bypass passage 73 and the bypass valve 74 are provided in the circulation passage 60. The bypass flow path 73 and the bypass valve 74 may be omitted. In this case, you may make it stop the liquid feeding part 77 at the timing which switches all the collection valves 70, 71, 72 to the closed state.

DESCRIPTION OF SYMBOLS 10 Inkjet recording device, 15 Main tank 20 Inkjet head, 21, 22, 23 Head part 24, 25, 26 Nozzle, 27, 28, 29 Inlet 30, 31, 32 Outlet, 33, 34, 35 Internal flow path 36 , 37, 38 Main stream part, 39, 40, 41 Tributary part, 42 Carriage 43, 44, 45 Sub tank, 46, 47, 48 Storage chamber 49, 50, 51 Detector, 52, 53, 54 Heating part 60 Circulation channel 61, 62, 63 Supply flow path, 64 First manifold 65, 66, 67 Recovery flow path, 68 Second manifold, 69 Connection flow path 70, 71, 72 Recovery valve, 73 Bypass flow path, 74 Bypass valve 77 Liquid part, 80 replenishment flow path, 81 replenishment valve 90 control device, 91 control part, 92 CPU, 93 storage part, 94 RAM
95 connection interface (connection I / F), 96 power supply

Claims (3)

A main tank for storing ink;
An inkjet head including a first nozzle and a second nozzle for ejecting the ink,
A circulation flow path through which the ink supplied from the main tank flows and circulates the ink discharged from the first nozzle and the second nozzle;
A liquid feeding section that is provided in the circulation flow path and that causes the ink to flow through the circulation flow path;
A supply passage, wherein the main tank and connecting with said circulation passage, the ink is fed subjected to the circulation flow path from the main tank flows,
A replenishment valve provided in the replenishment flow path and opening and closing the replenishment flow path,
The inkjet head is
A first head portion on which the first nozzle is formed;
A first sub-tank for storing the ink supplied to the first head portion;
A second head portion on which the second nozzle is formed;
A second sub tank for storing the ink supplied to the second head portion,
The circulation channel is
A first supply flow path connected to the first sub tank and through which the ink supplied to the first sub tank flows;
A second supply flow path connected to the second sub tank and through which the ink supplied to the second sub tank flows;
A first manifold that connects the first supply channel and the second supply channel, causes the ink to flow out to the first supply channel, and causes the ink to flow out to the second supply channel;
A first recovery flow path connected to the first head portion and through which the ink flowing out of the first head portion flows;
A second recovery flow path connected to the second head portion and through which the ink flowing out of the second head portion flows;
A second manifold in which the first recovery flow path and the second recovery flow path are connected, the ink flowing through the first recovery flow path flows in, and the ink flowing through the second recovery flow path flows in When,
A connection channel for connecting the second manifold and the first manifold, and flowing the ink from the second manifold to the first manifold;
A first recovery valve that is provided in the first recovery channel and opens and closes the first recovery channel;
A second recovery valve that is provided in the second recovery channel and opens and closes the second recovery channel;
A bypass flow path connecting the first manifold and the second manifold, and flowing the ink from the first manifold to the second manifold;
A bypass valve provided in the bypass channel and opening and closing the bypass channel ;
The first sub tank is provided with a first detector for detecting the amount of the ink stored in the first sub tank,
The second sub tank is provided with a second detector for detecting the amount of the ink stored in the second sub tank,
When the amount of the ink detected by the first detector is a first amount,
The refill valve is in an open state,
The first recovery valve is in a closed state,
When the amount of the ink detected by the first detector is a second amount greater than the first amount,
The refill valve is in a closed state,
The first recovery valve is in an open state,
When the amount of the ink detected by the second detector is the first amount,
The refill valve is in an open state,
The second recovery valve is in a closed state,
When the amount of the ink detected by the second detector is the second amount,
The refill valve is in a closed state,
The second recovery valve is in an open state,
The bypass valve is an ink jet recording apparatus that is opened when the first recovery valve and the second recovery valve are closed . The bypass valve is in a state in which the first recovery valve is opened and the second recovery valve is closed when the first recovery valve and the second recovery valve are in an open state. 2. The inkjet recording apparatus according to claim 1 , wherein the ink jet recording apparatus is in a closed state when the first recovery valve is in a closed state and the second recovery valve is in an open state. A first heating unit that is provided in the first sub tank and heats the ink stored in the first sub tank;
Wherein provided on the second sub-tank, and a second heating portion for heating the ink stored in the second sub-tank, the ink jet recording apparatus according to claim 1 or claim 2.

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