The present application claims priority from Japanese Patent Application No. 2006-356794, filed on Dec. 29, 2006, the disclosure of which is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a liquid discharge apparatus for forming an image on a recording medium by discharging a liquid. In particular, the present invention relates to a liquid discharge apparatus of the type in which the maintenance is performed in accordance with the purge operation. In the purge operation, the liquid in a sub tank is pressurized to be fed to a discharge head, and the liquid in the discharge head is forcibly discharged from the discharge head.
2. Description of the Related Art
A recording apparatus based on the ink-jet system is known as an example of the liquid discharge apparatus. The recording apparatus forms an image on a recording medium such as the recording paper by discharging the ink from the recording head. The discharge liquid such as the ink is viscous. Therefore, it is necessary to perform the maintenance for the recording head every time when a predetermined period of time has elapsed or when the instruction is made by a user. Examples of the maintenance are disclosed in Japanese Patent Application Laid-open No. 2001-212982 and U.S. Pat. No. 6,837,560 (corresponding to Japanese Patent Application Laid-open No. 2004-58663).
That is, Japanese Patent Application Laid-open No. 2001-212982 discloses a recording apparatus based on the so-called tube system in which an ink tank and a recording head are communicated with each other by a tube, and the ink is supplied from the ink tank to the recording head via the tube. In the case of this recording apparatus, a sensor is provided to detect the residual amount or residual quantity of the ink contained in the ink tank. The purge operation is executed by supplying the ink at a pressure corresponding to the residual amount of the ink detected by the sensor.
On the other hand, U.S. Pat. No. 6,837,560 discloses a recording apparatus based on the so-called station system (also referred to as “on-demand system”) in which the ink is supplied from a main tank to a sub tank connected to a recording head. In the case of this recording apparatus, on supplementing the sub tank with the ink from the main tank when an image recording is performed, a maintenance for the interior of the recording head is performed by covering a discharge port of the recording head with a cap and sucking or pressurizing the ink in the recording head.
In the case of the maintenance for the liquid discharge apparatus based on the station system, unlike the example described above, the purge operation is sometimes performed such that the interior of the sub tank is pressurized to forcibly supply the liquid toward the discharge head thereby the liquid is discharged from the discharge holes of the discharge head. If the maintenance is performed in accordance with the purge operation as described above, when the pressurization is performed, the internal pressure of the sub tank is changed depending on the residual amount of the ink contained in the sub tank.
For example, when the residual amount of the ink is small (when the volume of the sub tank not occupied by the ink is large), there is a possibility that the internal pressure of the sub tank required for the purge operation cannot be raised sufficiently, and it is impossible to perform any appropriate maintenance. On the other hand, if a large-sized pump is installed in order to raise the internal pressure, then the liquid discharge apparatus is large-sized, and the cost becomes expensive, which is not preferred.
In view of the above, an object of the present invention is to provide a liquid discharge apparatus based on the station system which is constructed so that the appropriate maintenance can be realized by the purge operation in which the internal pressure of a sub tank is sufficiently raised while avoiding the large size of a pump.
According to a first aspect of the present invention, there is provided A liquid discharge apparatus, including: a discharge head which has a discharge port and discharges a liquid from the discharge port onto a recording medium to form an image thereon; a sub tank which is movable together with the discharge head and which stores the liquid to be supplied to the discharge head; a liquid supplement section which supplements the sub tank with the liquid; a purge section which performs a purge operation in which the liquid in the sub tank is pressurized to be fed to the discharge head, and the liquid in the discharge head is forcibly discharged from the discharge ports; a judging mechanism which judges whether or not an amount of the liquid in the sub tank is not more than a predetermined amount V1; and a controller which controls the liquid supplement section and the purge section, wherein: when the purge operation is executed by the purge section, and when the judging mechanism judges that the amount of the liquid in the sub tank is not more than the predetermined amount V1, the controller controls, before the execution of the purge operation, the liquid supplement section to supplement the sub tank with the liquid until the amount of the liquid contained in the sub tank exceeds the predetermined amount V1.
According to the first aspect of the present invention, the sub tank can be supplemented with the liquid so that the liquid in the sub tank is successfully larger than the predetermined amount V1 before the execution of the purge operation for pressurizing the interior of the sub tank in the liquid discharge apparatus based on the station system. Therefore, when the purge operation is executed, the internal pressure of the sub tank can be sufficiently increased without using any large-sized pump. It is possible to realize the purge operation which is suitable for the execution of the maintenance.
In the liquid discharge apparatus of the present invention, the purge section may include a charge tank which accumulates compressed air to be introduced into the sub tank, and an unoccupied volume VS of the sub tank, which is a volume of the sub tank, not occupied by the liquid after the sub tank is supplemented with the liquid from the liquid supplement section, may satisfy the following expression:
VS≦{(PC−PS0)/(PS0−P0)}·VC (1)
wherein PC represents a charge pressure of gas in the charge tank, PS0 represents a minimum pressure required to purge the sub tank, P0 represents atmospheric pressure, and VC represents a volume of the charge tank. In this case, even when the minimum pressure PS0, which is required for the purge operation, is applied to the interior of the sub tank, it is possible to realize the appropriate maintenance. The minimum pressure PS0 is exemplified by the pressure which makes it possible to discharge any bubble existing at an intermediate position between the sub tank and the discharge port of the discharge head by way of example.
In the liquid discharge apparatus of the present invention, the predetermined amount V1 and the unoccupied volume VS may satisfy the following expression:
V1=V2−VS
wherein V2 represents an entire volume of the sub tank.
In the liquid discharge apparatus of the present invention, the unoccupied volume VS of the sub tank, after the sub tank is supplemented with the liquid, may be a predetermined value greater than zero. In this case, it is unnecessary to perform the liquid supplement until the sub tank is fully filled. It is possible to reduce the amount of the supplement liquid within the range in which the expression (1) is satisfied. As a result, the period of time, which ranges from the start of the liquid supplement to the completion of the purge operation, can be shortened.
In the liquid discharge apparatus of the present invention, the controller may control the liquid supplement section so that a liquid-supplement velocity, which is adopted when the sub tank is supplemented with the liquid before the purge operation is executed, is greater than another liquid-supplement velocity which is adopted when the sub tank is supplemented with the liquid to form the image on the recording medium. In this case, it is possible to complete the maintenance by the purge operation earlier.
In the liquid discharge apparatus of the present invention, the liquid-supplement velocity, which is adopted when the sub tank is supplemented with the liquid to form the image on the recording medium, may be a velocity at which a meniscus formed at the discharge port of the discharge head is not destroyed, and the another liquid-supplement velocity, which is adopted when the sub tank is supplemented with the liquid before the purge operation, may be a velocity at which the meniscus is destroyed. In this case, the meniscus, which is formed at the discharge port, is not destroyed upon the liquid supplement when the image is formed on the recording medium. It is possible to satisfactorily maintain the discharge characteristic of the liquid. On the other hand, when the liquid supplement is performed before the purge operation, the liquid supplement can be performed at the velocity which is faster than the velocity adopted when the liquid supplement is performed to form the image on the recording medium. Therefore, the maintenance by the purge operation can be completed earlier.
In the liquid discharge apparatus of the present invention, the controller may control the liquid supplement section to supplement the sub tank with the liquid again after the purge operation has been performed by the purge section. In this case, although the liquid contained in the sub tank is reduced by the execution of the purge operation, the sub tank is supplemented with the liquid again. Therefore, it is possible to avoid the reduction of the processing amount (throughput) concerning the image formation after the maintenance.
In the liquid discharge apparatus of the present invention, the liquid supplement section and the purge section may be arranged with a transport path for the recording medium intervening therebetween. In this arrangement, it is possible to realize the liquid discharge apparatus having a layout with an appropriate weight balance.
In the liquid discharge apparatus of the present invention, the liquid supplement section and the purge section may be arranged adjacently in one area of two areas comparted by a transport path for the recording medium. In this arrangement, the positions of the discharge head and the sub tank, at which the purge operation is executed, are close to the positions of the discharge head and the sub tank at which the liquid supplement is executed prior to the purge operation. Therefore, it is possible to shorten the period of time required for the movement of the discharge head and the sub tank between the both positions until the purge operation is started after the completion of the liquid supplement. It is possible to shorten the overall period of time required for the maintenance.
In the liquid discharge apparatus of the present invention, the liquid supplement section may be arranged closer to the transport path than the purge section. In this arrangement, the liquid supplement section, which is also operated when the image is formed other than when the maintenance is performed and which is operated more frequently than the purge section, is arranged nearer to the transport path. The discharge head and the sub tank can be moved to the liquid supplement section in a short period of time. Therefore, it is possible to quicken the liquid supplement operation, and it is possible to improve the processing ability of the liquid discharge apparatus.
In the liquid discharge apparatus of the present invention, the liquid supplement section may have a main tank which stores the liquid to be supplemented to the sub tank, and the controller may control the liquid supplement section to communicate the main tank and the sub tank, and to recover the liquid, remaining in the sub tank to the main tank, and to perform a liquid supplement operation in which the sub tank is supplemented with the liquid from the main tank. In this case, even when any sensor for detecting the remaining amount of the liquid in the sub tank is not individually provided, the sub tank can be supplemented with a constant amount of the liquid. Therefore, it is possible to avoid any large size and any heavy weight of the sub tank, and it is possible to consequently avoid any large size and any heavy weight of the liquid discharge apparatus.
In the liquid discharge apparatus of the present invention, the liquid supplement section may have a pump which is capable of executing a sucking operation for recovering the liquid in the sub tank to the main tank, and a pressurizing operation for supplying the liquid in the main tank to the sub tank. In this arrangement, it is possible to execute the series of the liquid supplement operation by operating the pump.
In the liquid discharge apparatus of the present invention, when the purge operation is executed by the purge section, and only when the liquid is discharged from the discharge head after previous supplement for the sub tank with the liquid, the controller may control the liquid supplement section to execute the liquid supplement operation. In this arrangement, even when the purge operation is executed, it is enough that the liquid supplement is not particularly performed again, provided that the liquid is not discharged after the previous liquid supplement. Therefore, it is possible to shorten the required period of time by a period of time required for the liquid supplement in the maintenance.
According to a second aspect of the present invention, there is provided a maintenance method for a liquid discharge apparatus provided with a discharge head which has a discharge port and which discharges a liquid from the discharge port onto a recording medium to form an image thereon, a sub tank which is movable together with the discharge head and which stores the liquid to be supplied to the discharge head, a main tank which supplements the sub tank with the liquid, and a purge section which performs a purge operation in which the liquid in the sub tank is pressurized to be fed to the discharge head, and the liquid in the discharge head is forcibly discharged from the discharge ports, the maintenance method including: detecting a timing for maintenance; detecting a liquid-residual amount of the liquid remained in the sub tank; supplementing the liquid from the main tank to the sub tank until the liquid-residual amount of the liquid remaining in the sub tank is greater than a threshold value V1 when the liquid-residual amount is not more than the predetermined threshold value V1; and performing the purge operation by the purge section.
According to the second aspect of the present invention, if the residual amount of the ink contained in the sub tank is not more than the predetermined threshold value V1 at the maintenance timing, the purge operation is performed after the ink supplement is performed until the residual amount of the ink contained in the sub tank is more than the threshold value V1. Therefore, when the purge operation is performed, the internal pressure of the sub tank can be sufficiently raised without using any large-sized pump.
In the maintenance method of the present invention, the purge section may include a charge tank which accumulates compressed air to be introduced into the sub tank, and the liquid may be supplemented so that an unoccupied volume VS, of the sub tank, which is not occupied by the liquid after the sub tank is supplemented with the liquid from the main tank, satisfies the following expression:
VS≦{(PC−PS0)/(PS0−P0)}·VC
wherein PC represents a charge pressure of gas in the charge tank, PS0 represents a minimum pressure required to purge the sub tank, P0 represents atmospheric pressure, and VC represents a volume of the charge tank. When the ink supplement is performed as described above, it is possible to realize the appropriate maintenance even when the minimum pressure PS0 required for the purge is applied to the interior of the sub tank.
In the maintenance method of the present invention, the threshold value V1 and the unoccupied volume VS may satisfy the following expression:
V1=V2−VS
wherein V2 represents a volume of the sub tank.
In the maintenance method of the present invention, when the liquid-residual amount in the sub tank is not more than the predetermined threshold value V1, then the liquid in the sub tank may be recovered to the main tank, and the liquid may be supplemented thereafter from the main tank to the sub tank until the liquid-residual amount in the sub tank is greater than the threshold value V1. According to this method, the vacant volume of the sub-ink chamber can be always made constant when the liquid supplement is performed from the main tank to the sub tank. Therefore, it is unnecessary to provide any sensor for the sub tank in order to detect the liquid amount.
In the maintenance method of the present invention, when the liquid-residual amount in the sub tank is more than the predetermined threshold value V1, the purge operation may be performed by the purge section without supplementing the sub tank with the liquid. If the residual amount of the liquid in the sub tank is more than the predetermined threshold value V1, the pressure required for the purge can be applied to the liquid contained in the sub tank. Therefore, it is unnecessary to supplement the sub tank with the liquid.
The maintenance method of the present invention may further include supplementing the liquid again from the main tank to the sub tank after the purge operation. In this procedure, the supplement is performed for the liquid contained in the sub tank having been reduced by the execution of the purge operation. Therefore, it is possible to avoid the reduction of the processing amount (throughput) concerning the image formation after the maintenance.
An explanation will be specifically made below with reference to the drawings about a liquid discharge apparatus according to an embodiment of the present invention.
The recording apparatus 1 is connected to an external information device such as a personal computer so that the image is recorded on the recording paper as the recording medium based on the data transmitted from the computer or the like. When a digital camera or the like is connected to the recording apparatus 1, the photograph is recorded on the recording paper based on the data outputted from the digital camera or the like. Further, when various storage media such as memory cards are charged, the image can be recorded on the recording paper based on the data recorded on the storage medium as well.
As shown in
A door 7 is provided openably/closably at a lower-right portion on the front surface of the printer 2. A main tank-carrying section 8 (see
The scanner 3, which is provided at the upper portion of the recording apparatus 1, is a so-called flat bed scanner. That is, as shown in
An operation panel 11, which is used to operate the printer 2 and the scanner 3, is provided at a front upper portion of the recording apparatus 1. The operation panel 11 is composed of various operation buttons and a liquid crystal display. The recording apparatus 1 is operated based on the instruction outputted from the operation panel 11 as a result of the operation of the operation panel 11 by a user. When the recording apparatus 1 is connected to the external computer, the recording apparatus 1 is also operated based on the instruction transmitted from the computer via a printer driver or a scanner driver.
A slot 12 is provided at a front upper-left portion of the recording apparatus 1. Various small-sized memory cards as storage media can be installed to the slot 12. When the predetermined operation is performed on the operation panel 11, the data, which is stored in the small-sized memory card installed to the slot 12, is read. The read data can be displayed on the liquid crystal display of the operation panel 11 as well. Any image, which is selected based on the display, can be recorded on the recording paper by the printer 2.
A paper feed roller 26, which supplies the recording paper accommodated in the paper feed tray 5 to the recording paper transport path 23, is provided just over the paper feed tray 5. A pair of transport rollers 29, which are composed of a transport roller 27 and a pinch roller 28, are provided in the vicinity of the downstream portion of the curved path 24 in the recording paper transport path 23 so that the recording paper transport path 23 is interposed by the both rollers 27, 28 from the upper and lower positions. Further, a pair of paper discharge rollers 32, which are composed of a paper discharge roller 30 and a pinch roller 31, are provided in the vicinity of the downstream portion of the straight path 25 in the recording paper transport path 23 so that the recording paper transport path 23 is interposed by the both rollers 30, 31 from the upper and lower positions. The recording head 20 and the platen 18 described above are provided so that the straight path 25 is interposed from the upper and lower positions between the pair of transport rollers 29 and the pair of paper discharge rollers 32.
Therefore, the recording paper, which is accommodated in the paper feed tray 5, is supplied to the recording paper transport path 23 by the paper feed roller 26. Subsequently, the recording paper is transported from the curved path 24 to the straight path 25 on the recording paper transport path 23 by the pair of transport rollers 29. When the recording paper arrives at the straight path 25, the image is recorded thereon with the inks discharged from the recording head 20. When the recording is completed, then the recording paper is discharged from the straight path 25 by the pair of paper discharge rollers 32, and the recording paper is accommodated in the paper discharge tray 6 (see
The recording apparatus 1 is capable of executing, for example, the ink supplement process for the sub tanks 21 and the maintenance process for the recording head 20 as described later on, in addition to recording the image on the recording paper. An ink supplement section (liquid supplement section) 88 is provided in front of the image-recording unit 22 as described later on.
As shown in
The carriage 19 is secured to the timing belt 44 at the bottom thereof. Therefore, the carriage 19 makes the reciprocating motion in the left and right directions on the guide rails 38, 39 in accordance with the rounding motion of the timing belt 44. The recording head 20 and the sub tanks 21 are carried on the carriage 19 (see
As shown in
Next, an explanation will be made about the arrangement of the image-recording unit 22 and the ink supplement section 88.
As shown in
The sub tank 21 has a box-shaped form in which the dimension in the left-right direction is smaller than the dimension in the front-back direction. Five of the sub tanks 21 are prepared in total one by one for each of the colors. As shown in
A refill port valve 64, which communicates the sub-ink chamber 21A and the main ink chamber 9A of the main tank 9 during the supplement with the ink, is provided in front of the sub-ink chamber 21A. In particular, a refill chamber 63, which communicates with the sub-ink chamber 21A via the first communication port 61, is provided in front of the first communication port 61. A refill port 63A, which communicates with the outside, is formed at a lower portion of the refill chamber 63. The refill port valve 64 is accommodated in the refill chamber 63. The refill port valve 64 is provided with a valve plug 64A which is inserted into the refill port 63A and which is movable upwardly and downwardly, a coil spring 64B which urges the valve plug 64A in the direction to close the refill port 63A (in the downward direction as viewed in
Further, a pressure-adjusting section 70 is provided in front of the sub tank 21. The pressure-adjusting section 70 has a negative pressure-adjusting chamber 71 which communicates with the sub-ink chamber 21A via a labyrinth structure 65 formed on the upper surface of the upper wall of the sub tank 21, and a positive pressure-adjusting chamber 72 which is positioned over or above the negative pressure-adjusting chamber 71. Further, the pressure-adjusting section 70 has a negative pressure-adjusting valve 73 which communicates the outside and the sub-ink chamber 21A via the negative pressure-adjusting chamber 71 during the purge, and a positive pressure-adjusting valve 74 which communicates the outside and the sub-ink chamber 21A via the positive pressure-adjusting chamber 72 and the negative pressure-adjusting chamber 71. The negative pressure-adjusting valve 73 is constructed in the same manner as the refill port valve 64. The negative pressure-adjusting valve 73 is provided with a valve plug 73A which is inserted into a communication hole 71A for communicating the negative pressure-adjusting chamber 71 and the outside and which is movable upwardly and downwardly, a coil spring 73B which urges the valve plug 73A in the direction to close the communication hole 71A, and a seal member 73C. When no external force is exerted on the valve plug 73A, the negative pressure-adjusting valve 73 closes the communication hole 71A by the urging force of the coil spring 73B. On the other hand, when the external force is applied to move the valve plug 73A upwardly (toward the inside of the negative pressure-adjusting chamber 71), the communication hole 71A is opened to communicate the outside and the negative pressure-adjusting chamber 71.
On the other hand, the main tanks 9 constitute the ink supplement section 88. As shown in
The positive pressure-adjusting valve 81 has a valve plug 81A, and a coil spring 81B which urges the valve plug 81A. The positive pressure-adjusting valve 81 maintains the internal pressure of the main ink chamber 9A to be not more than a predetermined positive pressure value. That is, the communication is cut off or blocked between the main ink chamber 9A and the outside when the internal pressure of the main ink chamber 9A is not more than the predetermined positive pressure value, while the main ink chamber 9A and the outside are communicated with each other when the internal pressure exceeds the predetermined positive pressure value. A push rod 81C, which has a long dimension and which is rod-shaped, is provided to extend backwardly toward the pump 82 from the end surface of the valve plug 81A possessed by the positive pressure-adjusting valve 81.
The pump 82 is provided to change the volume of the main ink chamber 9A in order to supplement the sub-ink chamber 21A with the ink and in order to recover the ink from the sub-ink chamber 21A as described later on. The pump 82 is provided with a cylinder 83, a piston 84 which has a long dimension, which is rod-shaped, and which is accommodated in the cylinder 83, and a pinion gear 85 which drives the piston 84. In particular, the piston 84, which constitutes the pump 82, is provided with a rack gear 84A which is formed at an upper portion thereof, and a piston crown 84B which is provided at the forward end.
The rack gear 84A is meshed with the pinion gear 85. The piston 84 reciprocates in the front-back direction in the cylinder 83 in accordance with the rotary driving of the pinion gear 85. During this process, the piston crown 84B reciprocates while making the sliding contact with the inner wall surface of the cylinder 83 in the air-tight manner. A hole having a small diameter is formed through the wall disposed on one side of the cylinder 83. The push rod 81C, which is possessed by the positive pressure-adjusting valve 81, penetrates through the hole to extend to the interior of the cylinder 83. Therefore, when the piston 84 is moved frontwardly, then the piston crown 84B pushes and moves the valve plug 81A frontwardly by the aid of the push rod 81C, and the positive pressure-adjusting valve 81 is opened.
A joint valve 87, which is jointed to the refill port valve 64 provided for the sub tank 21, is attached via a tube 86 arranged outside the main tank 9 to the ink supply port 80 provided in the vicinity of the bottom of the main tank 9. The joint valve 87 is provided with, for example, a valve plug 87A which is movable in the vertical direction, and a coil spring 87B which urges the valve plug 87A upwardly. The joint valve 87 is closed by the urging force of the coil spring 87B when no external force is exerted on the valve plug 87A. When the external force directed in the downward direction is exerted on the valve plug 87A, and the valve plug 87A is moved in the downward direction against the urging force of the coil spring 87B, then the main ink chamber 9A is communicated with the outside via the tube 86 and the joint valve 87.
The joint valve 87 as described above is moved upwardly and downwardly by means of a lifting mechanism 104. Therefore, when the joint valve 87 is moved upwardly by means of the lifting mechanism 104 in a state in which the image-recording unit 22 is positioned at the ink supplement position 50, then the valve plug 87A of the joint valve 87 and the valve plug 64A of the refill port valve 64 are mutually pushed and moved, and the both valves 64, 87 are opened. As a result, the main ink chamber 9A of the main tank 9 and the sub-ink chamber 21A of the sub tank 21 are communicated with each other via the valves 64, 87.
In this embodiment, the ink supplement section 88 is constructed, for example, by the main tank 9 provided with, for example, the main ink chamber 9A and the pump 82, the tube 86, the joint valve 87, the lifting mechanism 104, the pinion gear 85 meshed with the pump 82, and the pinion gear-driving circuit 105 (see
The maintenance mechanism 55 is provided with a pressurizing pump 110 which has a charge tank 110a to supply the compressed air, a flexible tube 111 which derives the compressed air from the pressurizing pump 110, a gas-introducing member 112 which is connected to the forward end of the flexible tube 111, an eccentric cam 113 which makes abutment against the gas-introducing member 112 from the lower position, a motor 114 which rotates the eccentric cam 113, and a guide 115 which is stationarily placed to support the gas-introducing member 112 slidably in the vertical direction.
The gas-introducing member 112 is movable upwardly and downwardly. When the gas-introducing member 112 is positioned at the upper position, the gas-introducing member 112 pushes and moves the valve plug 73A of the negative pressure-adjusting valve 73 of the image-recording unit 22 to communicate the pressurizing pump 110 and the negative pressure-adjusting chamber 71 each other. The gas-introducing member 112 has an abutment section 112a which is provided with the lower surface making contact with the eccentric cam 113, and a communicating member 112b which is supported by the abutment section 112a. The forward end of the flexible tube 111 is connected to the communicating member 112b. Further, the communicating member 112b makes contact with the inner circumferential surface of the guide 115, and the communicating member 112b is movable upwardly and downwardly by being guided thereby. The communicating member 112b has an internal passage 112c communicated with the flexible tube 111. An annular seal member 112d is attached to the circumferential edge portion of the upper opening of the internal passage 112c.
The transport mechanism-driving circuit 101 drives the unillustrated motor to rotate the transport roller pair 29 and the paper discharge roller pair 32 (see
The carriage-driving circuit 103 is connected to the carriage motor 45 (see
The motor 114, which is possessed by the maintenance mechanism 55, is driven and rotated based on the signal supplied from the controller 100. Accordingly, the eccentric cam 113 is revolved, and the gas-introducing member 112 is moved upwardly and downwardly. The pressurizing pump 110, which is possessed by the maintenance mechanism 55, is driven based on the signal supplied from the controller 100 to derive the compressed air via the flexible tube 111 and the gas-introducing member 112.
Further, the controller 100 is connected to the personal computer (PC, hereinafter abbreviated as “computer”) 106 as the external information device. The controller 100 outputs the instruction signal based on the signal supplied from the computer 106 or the operation panel 11.
Next, an explanation will be made about the operation of the recording apparatus 1 as described above.
At first, an explanation will be made about the ink supplement process for performing the ink supplement from the main tank 9 to the sub tank 21 when the image is recorded. When the residual amount of the ink in the sub-ink chamber 21A of the sub tank 21 is decreased to be not more than the predetermined threshold value, the recording apparatus 1 executes the ink supplement process by driving the ink supplement section 88 by the aid of the controller 100. The recording apparatus 1 according to this embodiment adopts the station supply system. When the process is executed, the series of ink supplement operation, which will be explained in detail below, is performed such that the residual ink is once recovered from the sub tank 21 to the main tank 9, and then the ink supplement is performed from the main tank 9 to the sub tank 21.
As shown in
Subsequently, the ink supplement section 88 is driven to joint the main tank 9 and the sub tank 21. That is, the lifting mechanism 104 is driven to move the joint valve 87 upwardly, and the sub-ink chamber 21A and the main ink chamber 9A are communicated with each other via the joint valve 87 and the refill port valve 64 as shown in
When the both ink chambers 9A, 21A are communicated with each other, then the pinion gear 85 is rotated to move the piston 84 backwardly, and the negative pressure is provided in the main ink chamber 9A. Accordingly, as shown in
In this way, in the ink supplement process of the recording apparatus 1 according to this embodiment, the vacant volume in the sub-ink chamber 21A is always substantially constant upon the supplement with the ink from the main ink chamber 9A, because the residual ink in the sub-ink chamber 21A is once recovered. Therefore, even when any sensor for detecting the ink amount is not provided for the sub tank 21, the ink supplement can be performed accurately to arrive at the maximum volume of the sub-ink chamber 21A.
Next, an explanation will be made about the operation in relation to the purge process to be executed during the maintenance.
The maintenance mechanism 55 is operated as follows based on the signal supplied from the controller 100 in the state in which the image-recording unit 22 is positioned at the purge position 51 (see
When the gas-introducing member 112 is pushed upwardly to the uppermost position, the communication is cut off or blocked between the negative pressure adjusting chamber 71 and the positive pressure-adjusting chamber 72 by the valve plug 73A of the negative pressure-adjusting valve 73. On the other hand, the annular seal member 112d, which is attached to the upper end of the communicating member 112b of the gas-introducing member 112, abuts against the bottom outer surface of the negative pressure-adjusting chamber 71 in the air-tight manner so that the communication hole 71A is positioned inwardly (
An explanation will be made about the maintenance process for the recording head 20 of the recording apparatus 1 as described above.
If it is judged in Step S12 that the ink residual amount is not more than the threshold value V1 (Step S12: YES), an unoccupied volume VS in the sub-ink chamber 21A, which is the volume of the sub-ink chamber not occupied by the ink, is large in this state. Therefore, if the purge process is executed exactly in this state, there is a possibility that the minimum pressure PS0 in the sub tank 21, which is required to execute the appropriate purge process, cannot be secured. Accordingly, the carriage motor 45 is driven so that the carriage 19 is positioned at the ink supplement position 50 to execute the ink supplement process having been already explained with reference to
If the ink amount in the sub tank 21 is an amount which exceeds the predetermined value V1 to complete the ink supplement process (Step S15), then the carriage motor 45 is driven to position the carriage 19 at the purge position 51, and the purge process is executed as having been already explained with reference to
On the other hand, if it is judged in Step S12 that the ink residual amount exceeds the threshold value V1 (Step S12: NO), then the unoccupied volume VS in the sub-ink chamber 21A is small, and it is possible to secure the minimum pressure PS0 in the sub tank 21 required to execute the appropriate purge process in this state. Accordingly, the ink supplement process (Step S13) is not performed. The pressurizing pump 110 is driven so that the internal pressure of the charge tank 110a is raised to the pressure PC (Step S16), and the purge process is executed (Step S17).
Further, in the case of the recording apparatus 1 according to this embodiment, when the purge process in Step S17 is completed, then the carriage 19 is positioned at the ink supplement position 50 in order to perform the supplement for the ink consumed in the concerning process, and the ink supplement process, which has been already explained with reference to
As explained above, in the maintenance process for the recording apparatus 1, if the ink residual amount in the sub tank 21 is not more than the predetermined value V1, the ink supplement process is executed prior to the purge process. Accordingly, the unoccupied volume VS in the sub tank 21 can be decreased, and it is possible to secure the minimum pressure PS0 in the sub tank 21 which makes it possible to execute the appropriate purge process when the purge is executed by introducing the compressed air from the pressurizing pump 110.
Therefore, the ink supplement amount in Step S13 can be determined to have such a value that the unoccupied volume VS in the sub tank 21 after the completion of the supplement process satisfies the following expression.
VS≦{(PC−PS0)/(PS0−P0)}·VC
In the expression described above, PC represents the charge pressure of the gas in the charge tank 110a, i.e., the internal pressure of the charge tank 110a upon the start of the gas introduction in accordance with the purge process. As explained above, PS0 represents the minimum pressure in the sub tank 21 required to execute the appropriate purge process. In particular, PS0 represents the internal pressure of the sub-ink chamber 21A when the gas introduction from the pressurizing pump 110 is completed and the internal pressures of the charge tank 110a and the sub-ink chamber 21A are in the equilibrium state. PO and VC mean the atmospheric pressure and the volume of the charge tank 110a respectively. The values thereof are previously stored, for example, in RAM of the controller 100.
The expression described above is calculated on the basis of the condition of [PS≧PS0] in relation to the internal pressure PS of the sub-ink chamber 21A and the condition of [PCVC+P0VS=PS(VC+VS)] focused on the relationship between the pressure and the volume before and after the purge provided that PS represents the internal pressure of the sub-ink chamber 21A when the internal pressures of the charge tank 11a and the sub-ink chamber 21A are in the equilibrium state.
It is enough that the unoccupied volume VS after the ink supplement in Step S13 is the value of not less than zero. That is, in the ink supplement process before the purge process, it is not necessarily indispensable that the ink is charged until arrival at an amount at which the sub tank 21 is fully filled with the ink. It is also allowable that the ink is supplemented as less as possible within the range in which the expression described above is satisfied. Accordingly, it is possible to shorten the time required for the ink supplement process. It is possible to complete the maintenance operation earlier.
The threshold value V1, which relates to the ink residual amount to be used as the basis to judge whether or not the ink supplement is required beforehand in Step S12, can be determined as the ink residual amount which makes it possible to secure the pressure PS0 in the sub tank 21 during the purge. The threshold value V1 is defined as [V1=V2−VS] provided that V2 represents the volume of the sub-ink chamber 21A of the sub tank 21.
In the explanation with reference to
In the case of the recording apparatus 1 according to this embodiment, the ink supplement speed SP1 during the image formation is set to have the value which is different from that of the ink supplement speed SP2 before the purge. Specifically, when the sub tank 21 is supplemented with the ink, the residual ink in the recording head 20 is slightly discharged from the nozzle holes 20a in some cases. When the ink supplement is performed during the image formation, i.e., when the ink in the sub tank 21 is insufficient in the middle of the continuous image formation on a plurality of sheets of the recording paper, and the ink supplement is performed in order to form the image on the next sheet of the recording paper, then it is necessary that the state of the ink existing in the nozzle holes 20a of the recording head 20 should be maintained as exactly as the state (meniscus) suitable for the image formation. On the other hand, in the case of the ink supplement before the purge, the new meniscus is formed by the purge process to be performed thereafter. Therefore, even when the meniscus is destroyed by the ink supplement, no inconvenience arises.
Therefore, in the recording apparatus 1, the speed is suppressed to the speed SP1 of such an extent that the meniscus is not destroyed, in the case of the ink supplement during the image formation. The ink supplement is performed at the speed SP2 which is greater than the speed SP1, in the case of the ink supplement before the purge. Accordingly, the ink supplement process before the purge can be completed earlier. The unoccupied volume VS of the sub tank 21 after the ink supplement described above and the charge pressure VC of the charge tank 110a are determined on condition that the ink supplement speed SP2 as described above can be achieved.
The foregoing explanation is illustrative of the arrangement (see
In the case of the arrangement shown in
In the foregoing explanation, the exemplary embodiments have been described, in which the present invention is applied to the liquid discharge apparatus for discharging the ink provided for the recording apparatus. However, the liquid to be discharged is not limited to the ink. The present invention is also applicable, for example, to any recording apparatus provided with any liquid discharge apparatus for discharging any liquid other than the ink including, for example, those for the reagent, the biological solution, the wiring material solution, the electronic material solution, the refrigerant, and the fuel.
Number | Date | Country | Kind |
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2006-356794 | Dec 2006 | JP | national |
Number | Name | Date | Kind |
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6837560 | Ebisawa | Jan 2005 | B2 |
Number | Date | Country |
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2001212982 | Aug 2001 | JP |
2004058663 | Feb 2004 | JP |
Number | Date | Country | |
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20080158271 A1 | Jul 2008 | US |