Source: https://patents.google.com/patent/JP5250275B2/en
Timestamp: 2019-12-12 11:45:31
Document Index: 404614128

Matched Legal Cases: ['art 41', 'art 22', 'art 21', 'art 22', 'art 21', 'art)\n101']

JP5250275B2 - Ink supply system for ink jet printer, ink supply method for ink jet printer, and ink jet printer - Google Patents
Ink supply system for ink jet printer, ink supply method for ink jet printer, and ink jet printer Download PDF
JP5250275B2
JP5250275B2 JP2008026703A JP2008026703A JP5250275B2 JP 5250275 B2 JP5250275 B2 JP 5250275B2 JP 2008026703 A JP2008026703 A JP 2008026703A JP 2008026703 A JP2008026703 A JP 2008026703A JP 5250275 B2 JP5250275 B2 JP 5250275B2
JP2008026703A
JP2009184233A (en
勇一郎 浜野
2008-02-06 Application filed by 株式会社セイコーアイ・インフォテック filed Critical 株式会社セイコーアイ・インフォテック
2008-02-06 Priority to JP2008026703A priority Critical patent/JP5250275B2/en
2009-08-20 Publication of JP2009184233A publication Critical patent/JP2009184233A/en
2013-07-31 Publication of JP5250275B2 publication Critical patent/JP5250275B2/en
The present invention relates to an ink supply system for an ink jet printer, an ink supply method for an ink jet printer, and an ink jet printer.
In a conventional ink jet printer, an intermediate ink storage bag (auxiliary tank) is used in an ink passage connecting an ink cartridge (main tank) for storing ink and an ink jet head for ejecting ink to record on a recording medium. This intermediate ink storage bag is provided in order to continue printing with the inkjet head even when the ink cartridge is replaced. The intermediate ink storage bag is formed of a flexible bag or the like for storing a certain amount of ink. A tube having an open / close valve is provided at the uppermost portion of the intermediate ink storage bag so as to remove bubbles when the ink is filled or replaced (see, for example, Patent Document 1). ).
At the time of ink filling when starting to use the ink jet printer, ink is supplied from the ink cartridge through the ink passage to the ink jet head through the intermediate ink storage bag. At that time, since the intermediate ink storage bag is made of a flexible bag, it was easy for air to accumulate inside. Therefore, the air accumulated in the intermediate ink storage bag is discharged by the on-off valve provided at the top.
JP 2004-203056 A
However, in the conventional ink jet printer, the tube and the on-off valve, which are the mechanisms for extracting air, are attached even during normal use, and the ink jet printer has become larger and complicated. In addition, air venting with a tube provided on the upper part of the intermediate ink storage bag is very difficult because the on-off valve is adjusted while observing the state of air and ink coming out of the tube.
SUMMARY OF THE INVENTION The present invention has been made in view of such a problem, and an ink supply system for an ink jet printer that can be easily downsized and can be reduced in size when starting to use, and an ink supply method for an ink jet printer And an inkjet printer.
An ink supply system for an ink jet printer according to the present invention includes a first pipe having one end connected to a main tank in which ink is stored by removing internal air, and the other end of the first pipe by removing internal air. An ink supply for an ink jet printer, comprising: a second pipe having one end connected to an auxiliary tank connected to the ink tank; and an ink jet head connected to the other end of the second pipe and ejecting the ink to print on a print medium. In the system, having an auxiliary connection means used in exchange for the auxiliary tank and having a smaller internal capacity than the auxiliary tank,
The other end of the first pipe and the one end of the second pipe can be connected or separated at least from the auxiliary tank and the auxiliary connecting means, and when connecting or separating, the air is supplied to the auxiliary tank or the auxiliary tank. It is characterized in that an attaching / detaching portion that is connected or separated without flowing in is provided.
According to the present invention, the auxiliary tanks respectively connected to the other end of the first pipe and the one end of the second pipe can be used by replacing them with the auxiliary connecting means.
Further, since the internal volume of the auxiliary connecting means is smaller than that of the auxiliary tank, the auxiliary connecting means can be easily filled with ink. Then, with the auxiliary connection means connected to the other end of the first pipe and one end of the second pipe, if the ink stored in the main tank is guided from the first pipe, the first pipe, the auxiliary connection means, It is possible to fill the ink while preventing air from entering the two pipes and the inkjet head.
Further, the auxiliary connecting means is replaced with an auxiliary tank that excludes air by using the detachable portion, and the ink stored in the main tank is filled into the auxiliary tank that excludes the air inside. Thereby, the main tank, the first pipe, the auxiliary tank, the second pipe, and the ink jet head can be filled with ink.
For this reason, it is not necessary to remove the ink bubbles by the open / close valve provided in the tube provided in the auxiliary tank, which is conventionally performed, and the ink supply work when starting to use the ink supply system of the inkjet printer is facilitated. Can do.
In addition, the tube and the on-off valve provided in the conventional auxiliary tank are not required, and the auxiliary connecting means, which is a component used for venting the air in the ink supply system, is removed during normal use. The configuration of the entire ink supply system of the printer can be reduced in size and simplified.
Further, the auxiliary connection means has a connection pipe that directly connects a connection portion with the other end of the first pipe and a connection portion with one end of the second pipe, and the other end of the first pipe and the Air does not flow into the respective connecting portions between the one end of the second pipe and the auxiliary tank, the other end of the first pipe, the one end of the second pipe and the auxiliary connecting means. It is more preferable that an attachment / detachment mechanism that can be connected and disconnected is provided.
According to the present invention, since the connection pipe in the auxiliary connection means is configured to directly connect the two connection portions, the air in the connection pipe is easily released when the ink is filled. Accordingly, when the auxiliary connection means is connected to the other end of the first pipe and the one end of the second pipe, respectively, the ink stored in the main tank is guided from the first pipe, so that the first pipe, the connection pipe, the second pipe, The ink can be filled without introducing air into the pipe and the inkjet head.
Furthermore, by using the attachment / detachment mechanism, the auxiliary connection means is replaced with an auxiliary tank that excludes internal air without flowing air, and the auxiliary tank that excludes internal air is filled with ink stored in the main tank. To do. Accordingly, the main tank, the first pipe, the auxiliary tank, the second pipe, and the ink jet head can be filled with ink without putting air.
Further, it is more preferable that the auxiliary tank is filled with ink by removing air inside.
According to the present invention, since the auxiliary tank is filled with ink by eliminating the air inside, the main tank is placed in the auxiliary tank during the ink supply operation when starting to use the ink supply system of the inkjet printer. A step of filling the stored ink is unnecessary. Therefore, the ink supply operation can be performed in a short time.
More preferably, the ink supply system of the ink jet printer described above and a suction pump for sucking the ink from the ink jet head side are provided.
According to this invention, the ink stored in the main tank can be automatically filled into the first pipe, the auxiliary connecting means, the second pipe and the ink jet head by the suction pump. Therefore, the ink filling operation when starting to use the inkjet printer can be performed more easily.
In addition, the tube and the on-off valve provided in the conventional auxiliary tank are not required, and the auxiliary connecting means, which is a component used for venting the air in the ink supply system, is removed during normal use. The configuration of the entire printer can be reduced in size and simplified.
The ink supply method for an ink jet printer of the present invention uses the ink supply system for an ink jet printer described above, and connects the auxiliary connecting means to each of the other end of the first pipe and one end of the second pipe. Auxiliary connecting means main tank connecting step for connecting the main tank to one end of the first pipe, and the ink stored in the main tank, the first pipe, the auxiliary connecting means, the second pipe, An ink filling step for filling the ink jet head; and disconnecting each of the other end of the first pipe and one end of the second pipe and the auxiliary connecting means; A vacuum auxiliary tank connecting step of connecting each of the one end of the second pipe and the auxiliary tank; and the ink stored in the main tank. It is characterized by having a vacuum auxiliary tank filling step of filling the serial auxiliary tank.
According to this invention, when starting to use the inkjet printer, first, in the auxiliary connecting means main tank connecting step, the other end of the first pipe and one end of the second pipe are connected to the auxiliary connecting means, respectively, A main tank filled with ink by removing the air inside is connected. Since the internal volume of the auxiliary connecting means is smaller than that of the auxiliary tank, the auxiliary connecting means can be easily filled with ink. Therefore, when filling the ink stored in the main tank in the next ink filling step, the air inside is pushed out in the order of the first pipe, the auxiliary connecting means, the second pipe, and the inkjet head, and the first pipe, the auxiliary connection It is possible to fill the ink while suppressing air from entering the means, the second pipe, and the inkjet head.
Next, in the vacuum auxiliary tank connection step, the connection between the other end of the first pipe and the one end of the second pipe and the attachment / detachment part of the auxiliary connection means is released, and the other end of the first pipe and the one end of the second pipe Each of these is connected to an auxiliary tank from which internal air has been removed by means of a detachable part. Finally, in the vacuum auxiliary tank filling step, the auxiliary tank is filled with ink stored in the main tank.
The detachable part can be connected or disconnected without flowing air into the auxiliary tank or auxiliary connecting means, so that air can be prevented from entering the first pipe, auxiliary tank, second pipe and inkjet head from the main tank. Thus, it is possible to prepare for printing by filling the ink. For this reason, it is not necessary to defoam the ink by the open / close valve provided in the tube provided in the auxiliary tank, which is conventionally performed, and the ink supply work when starting to use the ink supply system of the ink jet printer is facilitated. be able to.
Further, since the tube and the on-off valve provided in the conventional auxiliary tank are not required, the configuration of the entire ink supply system of the ink jet printer can be reduced in size and simplified.
The ink supply method for an ink jet printer of the present invention uses the ink supply system for an ink jet printer described above, and connects the auxiliary connecting means to each of the other end of the first pipe and one end of the second pipe. Auxiliary connecting means main tank connecting step for connecting the main tank to one end of the first pipe, and the ink stored in the main tank, the first pipe, the auxiliary connecting means, the second pipe, An ink filling step for filling the ink jet head; and disconnecting each of the other end of the first pipe and one end of the second pipe and the auxiliary connecting means; A filled auxiliary tank connecting step of connecting each of the one end of the second pipe and the auxiliary tank filled with ink by eliminating air inside It is characterized by having a.
Next, in the filled auxiliary tank connecting step, the connection of the other end of the first pipe and the one end of the second pipe with the auxiliary connecting means is released, and the other end of the first pipe and the second pipe are connected. The auxiliary tank filled with ink is connected to each of the one end and the internal air by the attaching / detaching portion.
The detachable part can be connected or disconnected without flowing air into the auxiliary tank or auxiliary connecting means, so that air can be prevented from entering the first pipe, auxiliary tank, second pipe and inkjet head from the main tank. Thus, it is possible to prepare for printing by filling the ink. For this reason, it is possible to facilitate the ink supply work when starting to use the ink supply system of the ink jet printer.
Further, since the auxiliary tank filled with ink by eliminating the air inside is used, the ink jet printer can be used without filling the auxiliary tank with ink in a later step.
The ink supply method of the ink jet printer according to the present invention includes a first pipe having one end connected to the first main tank in which the internal ink is excluded and the first ink is stored, and the internal air is excluded. A second pipe connected to one end of a first auxiliary tank filled with the first ink and connected to the other end of the first pipe; provided in the second pipe; An air introduction valve that switches between introduction and shutoff and an inkjet head that is connected to the other end of the second pipe and ejects the first ink. The first ink ejected from the inkjet head is used as a print medium. An ink supply method for an inkjet printer for printing, wherein the first pipe is disconnected by disconnecting each of the other end of the first pipe and one end of the second pipe and the first auxiliary tank. A first auxiliary connection means having a connection pipe that directly connects the other end of the second pipe and one end of the second pipe to a connection portion with the other end of the first pipe and a connection portion with the one end of the second pipe; A first auxiliary connecting means connecting step of connecting, a first ink main tank storing step of introducing air into at least the second pipe from the air introduction valve, the other end of the first pipe and one end of the two pipes; Each connection with the first auxiliary connecting means is released, and the other end of the first pipe and one end of the second pipe are connected to the other end of the first pipe and one end of the second pipe. The first auxiliary connection means exchange step for connecting with the second auxiliary connection means having a connection pipe directly connecting to the connection portion, and the connection between one end of the first pipe and the first main tank is released And one end of the first pipe, The first main tank replacement step for connecting the second main tank in which the second ink is stored with the air removed, and the second ink stored in the second main tank A pipe, a connection pipe of the second auxiliary connection means, a second ink filling step for filling the second pipe and the ink jet head, the other end of the first pipe and one end of the second pipe, and the second auxiliary connection. Each connection with the means is released without inflowing air, and the other end of the first pipe and the one end of the second pipe are removed from the inner air, and the second ink is filled with the second ink. It has the 2nd auxiliary tank and the 2nd auxiliary tank connection process connected without making air flow in. It is characterized by the above-mentioned.
Here, before changing the type of ink ejected from the inkjet head, the first pipe, the second pipe, and the inkjet head are filled with the first ink.
According to the present invention, when changing the type of ink ejected from the inkjet head, first, in the first auxiliary connecting means connecting step, each of the other end of the first pipe, one end of the second pipe, and the first auxiliary tank, respectively. The other end of the first pipe and the one end of the second pipe are connected to the first auxiliary connecting means. Since the connection pipe in the first auxiliary connection means is configured to directly connect the two connection portions, the first ink in the connection pipe is easily removed. For this reason, next, in the first ink main tank storing step, at least a part of the first ink in the second pipe is transferred to the first main tank by introducing air from the air introduction valve into at least the second pipe. Can be accommodated.
Next, in the first second auxiliary connection means replacement step, the connection between the other end of the first pipe and one end of the second pipe and the first auxiliary connection means is canceled, One end of the two pipes is connected to the second auxiliary connecting means. Then, in the first second main tank replacement step, the connection between the one end of the first pipe and the first main tank is released, and the one end of the first pipe and the second main tank are connected.
In the subsequent second ink filling step, the second ink stored in the second main tank is filled into the first pipe, the connection pipe of the second auxiliary connection means, the second pipe, and the inkjet head. Since the connection pipe in the second auxiliary connection means is configured to directly connect the two connection portions, the air in the connection pipe is easily released when the second ink is filled. Therefore, if the second ink stored in the second main tank is led from the first pipe with the second auxiliary connection means connected to the other end of the first pipe and one end of the second pipe, respectively, It is possible to fill the pipe, the connection pipe, the second pipe, and the inkjet head with the second ink without introducing air.
When filling the second ink, the first ink stored in the first pipe, the second pipe, and the ink jet head is discharged from the ink jet head side and discarded. Since at least a part of the first ink in the second pipe is stored in the first main tank in advance, the amount of ink to be discarded can be suppressed.
Finally, in the second auxiliary tank connection step, the connection between the other end of the first pipe, the one end of the second pipe, and the second auxiliary connection means is released without allowing air to flow into the second pipe. The end and the end of the second pipe are connected to the second auxiliary tank without flowing air. Thereby, it is possible to fill the second main tank, the first pipe, the second auxiliary tank, the second pipe, and the inkjet head with the second ink without introducing air.
In addition, since at least a part of the first ink in the second pipe is previously stored in the first main tank, the first ink mixed into the second ink when the second ink is filled in the second pipe. It is possible to suppress the amount of ink. For this reason, mixing of the first ink when the first ink is replaced with the second ink can be reduced, and the ink can be replaced more reliably.
According to the present invention, it is possible to provide an ink supply system for an ink jet printer, an ink supply method for an ink jet printer, and an ink jet printer that are easy to carry out and can be reduced in size when starting to use.
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings. 1 to 12 are explanatory views of a first embodiment of the ink jet printer of the present invention. 1 is a front view of the ink jet printer, FIG. 2 is a block diagram of the carriage unit shown in FIG. 1, and FIG. 3 is a block diagram.
As shown in FIG. 1, the inkjet printer 1 according to the present embodiment includes a conveyance unit 2 that conveys a recording sheet P that is a printing medium in a predetermined conveyance direction L <b> 1 (a direction perpendicular to the paper surface in FIG. 1). The plurality of inkjet heads 58 that eject ink W of different colors and print on the recording paper P are connected to the carriage unit 4 that reciprocates in the orthogonal direction L2 orthogonal to the transport direction L1 and the inkjet heads 58, respectively. A plurality of sub tanks 52 from which internal air is excluded, a cartridge 51 that is connected to each of the plurality of sub tanks 52 and stores ink W by eliminating internal air, and a main control unit 46 that controls each component. Has been.
The sub tank 52 corresponds to an auxiliary tank in the claims, and the cartridge 51 corresponds to a main tank.
That is, the ink jet printer 1 moves the ink jet head 58 in the orthogonal direction L2 orthogonal to the transport direction L1 while transporting the recording paper P in the transport direction L1, thereby recording characters and images on the recording paper P. It is a printer. In the present embodiment, six inkjet heads 58 are provided, and black (Bk), cyan (C), magenta (M), yellow (Y), light magenta (Lm), and light cyan (Lc) inks W are ejected. This is an example. These six inkjet heads 58 have the same configuration.
The carriage unit 4 is a unit that reciprocates along the orthogonal direction L2 on the recording paper P that is conveyed while being placed on the upper surface of the platen 12 heated by the heater 11, and is shown in FIGS. As shown in FIG. 2, a carriage 7 and a moving means 9 are provided.
Each nozzle surface 58b on the lower surface of the inkjet head 58 is provided with a nozzle hole 58a for ejecting ink W. As shown in FIG. 2, the inkjet head 58 is fixed to the head base 7 a of the carriage 7 with the nozzle surface 58 b of the inkjet head 58 facing the recording paper P. At this time, the plurality of nozzle holes 58a are fixed so as to be aligned along the transport direction L1. Further, six inkjet heads 58 are fixed so as to be aligned in the orthogonal direction L2 in which the carriage 7 moves.
As shown in FIG. 1, each inkjet head 58 is connected to a sub tank 52 via a second pipe 54, and the sub tank 52 is further connected to a cartridge 51 via a first pipe 53. .
The second pipe 54 is a long tube having flexibility and made of a soft material so as not to affect the movement of the carriage 7.
As shown in FIG. 1, the carriage 7 is movably fixed on a carriage rail (not shown) fixed to the base 30 while being arranged along the orthogonal direction L <b> 2, and wound around a pair of pulleys 31. The conveyor belt 32 is connected to the rotated conveyor belt 32. Of the pair of pulleys 31, one pulley 31 receives a rotational driving force from a drive motor 33 fixed to the base 30 and rotates. The other pulley (not shown) is rotated by the conveyor belt 32. Thereby, the carriage 7 can reciprocate in the orthogonal direction L2.
That is, the carriage rail, the pair of pulleys 31, the conveyance belt 32 and the drive motor 33 constitute the moving means 9.
A conveyance roller 34 is provided on the base 30 along the orthogonal direction L2. The transport roller 34 includes a single lower roller (not shown) located below the recording paper P and a plurality of upper rollers (not shown) located above the recording paper P. The lower roller is rotationally driven by a motor (not shown), and the upper roller functions as a pinch roller that presses the recording paper P and rotates along with the conveyance of the recording paper P. In other words, the transport roller 34 is driven by a motor (not shown) and rotates in the opposite direction with the recording paper P sandwiched therebetween. Thereby, the recording paper P is conveyed in the conveyance direction L1. That is, the transport roller 34 functions as the transport unit 2.
A platen 12 having a heater 11 is disposed on the lower surface of the recording paper P. Further, the platen 12 is provided with a suction mechanism (not shown). As a result, the recording paper P slides while adhering to the upper surface of the platen 12 and is conveyed by the conveying roller 34.
The plurality of sub-tanks 52 are detachably attached to the sub-tank attachment portion 22, and the plurality of cartridges 51 are detachably attached to the cartridge attachment portion 21. Each of the sub-tank mounting portion 22 and the cartridge mounting portion 21 is fixed on the base 30.
That is, the operator of the inkjet printer 1 can easily replace the sub tank 52 and the cartridge 51 in accordance with the remaining amount of the sealed ink W and the usage period. At this time, the sub tank 52 is disposed below the nozzle hole 58 a, that is, downward in the vertical direction so that a predetermined negative pressure is applied to the nozzle hole 58 a, and the cartridge 51 is disposed further below the sub tank 52.
A dummy sub tank 59 described later can be detachably attached to the sub tank attachment portion 22 by replacing the sub tank 52 with the dummy sub tank 59.
The base 30 is provided with a suction unit 40 and a wipe unit 41. The suction unit 40 is provided at a position where the carriage 7 is deviated from the upper area (printing area) (printing area) of the recording paper P, that is, at the home position, and includes a suction cap 40a and each suction pump 40b. . When the carriage 7 is disposed at the home position, the respective suction caps 40 a abut against the nozzle surfaces 58 b of the respective inkjet heads 58.
The suction pump 40b is a pump that discharges the ink W by forcibly performing suction in the nozzle hole 58a from the ink jet head 58 side of the ink supply system 50 described later. Thus, when the nozzle hole 58a is clogged for some reason, suction is performed at the home position, and the clogging in the nozzle hole 58a can be eliminated by forcibly discharging the ink W. . The discharged ink W is collected in a waste liquid tank 40c connected to the suction pump 40b.
The wipe unit 41 is provided between the recording paper P and the suction unit 40, and is an elastic body or a porous body that contacts the nozzle surface 58b and wipes the nozzle surface 58b to remove dirt and the like when the wipe unit 41 operates. The wipe part 41a is provided. Thereby, the nozzle surface 58b of each inkjet head 58 is maintained as clean as possible.
As shown in FIG. 3, the main control unit 46 provided in the inkjet printer 1 stores a CPU 46 a that controls the calculation and the entire system based on a predetermined control program, and stores a control program of the CPU 46 a in a predetermined area in advance. ROM 46b, RAM 46c for storing data read from ROM 46b and the like and calculation results required in the calculation process of CPU 46a, heater energization means 46d for energizing heater 11, and drive motor drive means 46e for driving drive motor 33 And suction pump drive means 46f for driving the suction pump 40b.
The CPU 46a is connected to a ROM 46b, a RAM 46c, a heater energizing unit 46d, a driving motor driving unit 46e, a suction pump driving unit 46f, and an ink control device 61a of an ink supply control unit 61 described later.
The CPU 46a is further connected to an input / output panel 47 so that the user can obtain information from the CPU 46a via the input / output panel 47 and issue various commands to the CPU 46a.
The ink jet printer 1 is provided with six sets of ink supply systems 50 for six colors of ink W, and one set of ink supply systems 50 shown in FIG. 4 will be described as an example.
As shown in FIGS. 3 and 4, the ink supply system 50 has one end 54 a connected to the first pipe 53 connected to the cartridge 51 at one end 53 a and the sub tank 52 connected to the other end 53 b of the first pipe 53. A second pipe 54 that is connected to the other end 54b of the second pipe 54, an ink jet head 58 that ejects ink and prints on the recording paper P, a sub tank detection means 63 that is fixed to the sub tank mounting portion 22, A cartridge detection unit 62 fixed to the cartridge mounting unit 21 and an ink supply control unit 61 that controls each component in response to a command from the main control unit 46 are provided.
Further, when ink is supplied by the ink supply system 50, the cartridge 51, the sub tank 52, and the dummy sub tank 59 that is used in exchange for the sub tank 52 are used.
The dummy sub tank 59 corresponds to the auxiliary connecting means in the claims.
The sub tank detecting means 63 and the cartridge detecting means 62 are made up of contact type sensors or the like. The sub tank detecting means 63 detects whether or not the sub tank 52 or the dummy sub tank 59 is attached to the sub tank attaching part 22, and the cartridge detecting means 62 detects whether or not the cartridge 51 is attached to the cartridge attaching part 21.
Then, the sub tank detection unit 63 and the cartridge detection unit 62 transmit the detection result to the ink control device 61a.
The cartridge 51 includes a cartridge case 51a made of a resin molded in a box shape, a cartridge bag 51b that is disposed inside the cartridge case 51a and stores the ink W by eliminating the air inside, and the ink W from the cartridge bag 51b. And a cartridge connecting portion 51c serving as a doorway.
On the other hand, the sub-tank 52 includes a sub-tank case 52a made of a resin molded in a box shape, a sub-tank bag 52b that is disposed inside the sub-tank case 52a and can be filled with ink W, but has been evacuated in advance, and a first pipe 53, and the two valve | bulb part main bodies 80 respectively connected with the other end 53b of 53, and the one end 54a of the 2nd pipe 54. The valve body 80 will be described in detail later.
The space between the sub tank bag 52b and the two valve body 80 is sealed, and the ink W and air are prevented from entering and exiting from this space. The two valve section main bodies 80 serve as doorways when the ink W enters and exits from the sub tank bag 52b, and are attached to one side of the sub tank case 52a.
A joint member 90 is provided at each of the other end 53 b of the first pipe 53 and one end 54 a of the second pipe 54 connected to the valve body 80. Further, the joint member 90 functions as an attaching / detaching portion configured not to allow air to flow into the valve portion main body 80 when connected to the valve portion main body 80.
The dummy sub tank 59 includes two dummy sub tank cases 59a made of a resin molded in the same shape as the sub tank case 52a, and the other end 53b of the first pipe 53 and one end 54a of the second pipe 54. A valve unit main body 80 and a U-shaped connection pipe 59b formed of a resin or the like directly connecting between the two valve unit main bodies 80 are provided. The two valve unit main bodies 80 are attached to one side of the dummy sub tank case 59 a in the same manner as the sub tank 52.
It is preferable that the dummy sub tank 59 is connected to the first pipe 53 or the second pipe 54 so that the ink flow is not hindered when the ink flow path is formed. Further, it is preferable that the dummy sub tank 59 is configured to have a very small ink capacity that can exist in the dummy sub tank 59 compared to the sub tank 52. The ink capacity that can exist in the sub tank 52 is the ink capacity that can be filled in the sub tank bag 52b, and the ink capacity that can exist in the dummy sub tank 59 is the ink capacity that can exist in the connection pipe 59b. Further, the ink capacity that can exist in the dummy sub tank 59 with the sub tank 52 as a reference is more preferably one tenth or less.
Further, the connection pipe 59b is configured by a pipe having the same cross-sectional area as the first pipe 53 or the second pipe 54, so that it does not become an obstacle to the flow of ink. The connection pipe 59b may be formed of the same pipe as the first pipe 53 or the second pipe 54.
When the sub tank 52 is attached to the sub tank attachment portion 22, each joint member 90 provided at the other end 53 b of the first pipe 53 and one end 54 a of the second pipe 54, and two valve portions provided in the sub tank 52. The main bodies 80 are connected to each other. Further, when the sub tank 52 is removed from the sub tank mounting portion 22, each joint member 90 provided at the other end 53 b of the first pipe 53 and one end 54 a of the second pipe 54 and two valve portions provided in the sub tank 52. The connection with the main body 80 is released.
The same applies to the dummy sub tank 59 used in exchange for the sub tank mounting portion 22. That is, when the dummy sub tank 59 is attached to the sub tank attaching portion 22, each joint member 90 provided at the other end 53 b of the first pipe 53 and one end 54 a of the second pipe 54, and two pieces provided in the dummy sub tank 59 are provided. The valve body 80 is connected to each other. Further, when the dummy sub tank 59 is removed from the sub tank mounting portion 22, the joint members 90 provided at the other end 53 b of the first pipe 53 and the one end 54 a of the second pipe 54, and two pieces provided at the dummy sub tank 59 are provided. The connection with the valve body 80 is released.
When the cartridge 51 is attached to the cartridge attachment portion 21, one end 53a of the first pipe 53 and the cartridge connection portion 51c of the cartridge 51 are connected. When the cartridge 51 is removed from the cartridge attachment portion 21, the one end 53a of the first pipe 53 and the cartridge are connected. The connection of the connection unit 51c is released.
The joint member 90 may be provided at one end 53a of the first pipe 53, and the connection and separation may be performed in the same manner as described above by using the valve portion main body 80 instead of the cartridge connection portion 51c.
The cartridge bag 51b of the cartridge 51 and the sub tank bag 52b of the sub tank 52 are made of a thin polyethylene bag having aluminum deposited on the surface, etc., and are flexible and can be pushed out by hand to push out the ink W.
The dummy sub tank case 59a is provided to make the appearance of the dummy sub tank 59 the same as the appearance of the sub tank 52. The dummy sub tank case 59a may be configured without using the dummy sub tank case 59a or the size of the dummy sub tank case 59a may be reduced. .
The supply pump 60 generates a driving force for transporting the ink W stored in the cartridge 51 and is stored in the cartridge 51 to the first pipe 53, and opens / closes the path through which the ink W of the first pipe 53 flows. The state can be switched.
5 and 6 are explanatory diagrams of the configuration and operation of the valve body 80 and the joint member 80. FIG.
5 is a diagram showing a state when the valve body 80 and the joint member 80 are separated, and FIG. 6 is a diagram showing a state when the valve body 80 and the joint member 90 are connected.
As shown in FIG. 5, the valve body 80 includes a valve seat 82, a valve body 83 that is in close contact with the valve seat, a biasing spring 84 that biases the valve body 83 toward the valve seat 82, and these valve seats 82. And a valve body 85 that accommodates the valve body 83 and the urging member 84.
The valve seat 82 is provided with a fitting hole 82a at the center so as to be formed in a substantially ring shape as a whole. The valve seat 82 is made of a resin that can be elastically deformed when pressed. The fitting hole 82a is a hole for fitting a tip 91a of a joint member 90 described later. Further, on the inner peripheral surface of the valve seat 82 facing the fitting hole 82a, two contact projecting portions 82b and 82c projecting inward in the circumferential direction are provided side by side.
The valve body 83 is configured in a substantially bottomed cylindrical shape including a side wall portion 83a formed in a cylindrical shape and a bottom portion 83b formed so as to close a peripheral edge on one end side of the side wall portion 83a. Further, at the edge where the side wall 83a and the bottom 83b are connected, a tapered surface edge 83c inclined with respect to the bottom 83b is provided. The diameter D2 of the bottom 83b including the tapered surface edge 83c (matching the outer diameter of the side wall 83a) is larger than the diameter D of the fitting hole 82a provided in the valve seat 82. The valve body 83 is disposed with the bottom 83b facing the valve seat 82 side. A biasing spring 84 is provided inside the valve body 83. The urging spring 84 has an inner portion of the valve body 83 such that one end is in contact with the inner surface of the bottom portion 83b and the other end is in contact with a step portion 85e described later in the valve body 85. Is arranged. Thus, the urging spring 84 supports the valve body 83 so as to approach or separate from the valve seat 82 and urges the valve body 83 toward the valve seat 82.
Note that the valve body 83 has a movable distance R (hereinafter referred to as a “valve element moving distance”) R that the valve body 83 has as shown in FIG. 5 in the bottom 83b and the tapered surface edge 83c of the valve body 83. Travels from a state where the valve member 82 is in contact while pressing the contact protrusion 82c of the valve seat 82 upward to a state where the opening end portion 83d of the valve body 83 is in contact with the step portion 85e shown in FIG. It has become.
A small hole (not shown) is provided in the side wall 83a of the valve body 83, and the ink W can flow through the small hole even if the opening end 83d abuts on the step 85e.
The valve main body 85 accommodates the above-described valve seat 82, valve body 83, urging spring 84, and ink W so as to be able to flow in and out. The valve body 85 is configured so that both upper and lower sides are open, and cylinders formed with three different diameters that are sequentially reduced in size from large to medium to small are connected. It is composed of a cylindrical shape. The above-described valve seat 82 is press-fitted and fitted into the valve seat housing cylinder portion 85a formed of this large-diameter cylinder.
The valve body 83 and the urging spring 84 described above are housed in the valve body housing cylinder portion 85b formed of this medium diameter cylinder. In addition, the inner diameter of the valve body accommodating cylinder portion 85b is set larger than the outer diameter of the valve body 83. As a result, a clearance is formed between the inner peripheral surface of the valve body housing cylinder portion 85 b and the outer peripheral surface of the side wall portion 83 a of the valve body 83. The ink W flows in and out of this clearance. A sub tank bag 52b, a connection pipe 59b, and the like are attached to the ink inflow cylinder portion 85c formed of the small diameter cylinder.
Step portions 85d and 85e are formed by the diameters of the adjacent valve seat accommodating cylinder 85a and valve element accommodating cylinder 85b, and the valve element accommodating cylinder 85b and the ink inflow cylinder 85c being different from each other. The valve seat 82, the valve body 83, and the biasing spring 84 are positioned by the step portions 85d and 85e. That is, the valve seat 82 is in contact with the step 85d, and the other end of the biasing spring 84 is in contact with the step 85e.
As a result, the urging spring 84 urges the valve body 83 toward the valve seat 82. The urging force of the urging spring 84 in the valve body 80 attached to the sub tank 52 is determined as follows. That is, the biasing force is set to be larger than the total force exerted by the atmospheric pressure on the bottom 83b of the valve body 83 from the joint member 90 shown in FIG.
This is because it is necessary to maintain the inside 86 of the valve body 85 in a vacuum even when the valve body 83 receives atmospheric pressure from the joint member 90.
The joint member 90 is formed in a bottomed cylindrical shape as shown in FIG. Specifically, the joint member 90 is provided with a bottom portion 91a to be fitted into the fitting hole 82a of the valve main body 80 on the distal end side, and the other end 53b of the first pipe 53 and the one end 54a of the second pipe 54 on the proximal end side. An opening 91b to be connected is provided. That is, the inside 92 of the joint member 90 formed in the bottomed cylindrical shape is formed in a hollow shape, and ink flows in and out of the inside 92. The bottom portion 91a is provided with a tapered portion 93 so as to taper toward the tip. By providing the taper portion 93 in this manner, the joint member 90 can be easily fitted when the joint member 90 is fitted into the fitting hole 82a.
The outer diameter D1 of the peripheral wall portion 91c extending from the distal end to the proximal end of the joint member 90 is larger than the diameter D of the fitting hole 82a provided in the valve seat 82. As a result, when the joint member 90 is fitted in the fitting hole 82a from the axial direction, the contact member provided on the outer peripheral surface of the peripheral wall portion 91c of the joint member 90 is provided on the inner peripheral surface of the valve seat 82. The contact protrusions 82b and 82c are in close contact with each other while being pressed to form a sealed state.
A small-diameter ink supply hole 96 that connects the interior 92 and the exterior is provided in the peripheral wall portion 91c of the joint member 90. The distance R1 from the bottom 91a, which is the tip, is set to be smaller than the valve body movement distance R and larger than the thickness R2 of the valve seat 82. Accordingly, as shown in FIG. 6, when the joint member 90 is fitted into the valve body 80 from the fitting hole 82a, the ink supply hole 96 is preferably disposed in the interior 86 of the valve body 85 over the valve seat 82. The
In this way, when the valve body 80 and the joint member 90 are connected as shown in FIG. 6, the ink W can flow bidirectionally between the valve body 80 and the joint member 90.
On the other hand, as shown in FIG. 5, when the valve body 80 and the joint member 90 are separated, the valve seat 82 and the valve body 83 are brought into close contact with each other, so that the valve body 80 has not only the ink W but also the inflow / outflow of air. Shut off. The joint member 90 is provided with a small-diameter ink supply hole 96. Whether the ink W and air flow in / out from the ink supply hole 96 depends on the other end of a pipe or the like to which the joint member 90 is connected. This is determined by the diameter of the hole provided in the pipe, the water head difference between the both ends of the pipe, and the details will be described later.
As shown in FIG. 3, the ink supply control unit 61 includes an ink control device 61 a that receives various instructions from the CPU 46 a and performs various calculations, a timer 61 b that measures a predetermined time and sends a signal to the ink supply control unit 61. And a supply pump driving means 61c for driving the supply pump 60.
The ink control device 61a is connected to the CPU 46a, the timer 61b, and the supply pump driving means 61c.
Next, an ink supply method in the ink jet printer of the present invention will be described. FIG. 7 is a flowchart of the ink supply method, and FIGS. 8 to 12 are explanatory diagrams showing the steps of the ink supply method.
In order to clarify the description of each step of the ink supply method, only the main part of the ink supply system 50 is illustrated and described. Then, one set shown in FIG. 8 of the ink supply system 50 provided in the ink jet printer 1 will be described as an example.
As shown in FIG. 8, before starting to use the inkjet printer 1, nothing has been attached to the sub tank attachment portion 22 and the cartridge attachment portion 21 yet. This is for the purpose of preventing the ink W in the cartridge 51 from coming into contact with air and oxidizing or drying, and for the convenience of transporting the ink jet printer 1.
In addition, the carriage 7 is arranged at the home position in advance by the drive motor 33. Each suction cap 40 a of the suction unit 40 is in contact with the nozzle surface 58 b of each inkjet head 58.
When receiving an instruction from the CPU 46a of the main controller 46 to execute the initial filling process of the ink W, the ink controller 61a of the ink supply controller 61 first supplies in the auxiliary connection means main tank connection process (step S10). The pump driving means 61c is instructed to close the supply pump 60.
Then, the operator of the ink jet printer 1 attaches the dummy sub tank 59 to the sub tank attachment portion 22. As a result, the joint member 90 provided at the other end 53b of the first pipe 53, the joint member 90 provided at the one end 54a of the second pipe 54, and the two valve portion main bodies 80 provided in the dummy sub tank 59 are connected. The Further, the operator connects the cartridge connection portion 51c provided in the cartridge 51 filled with the ink W by removing the internal air to the one end 53a of the first pipe 53 (see FIG. 9).
When the ink control device 61a detects that the dummy sub-tank 59 is attached to the sub-tank attachment portion 22 by the sub-tank detection means 63, and further detects that the cartridge 51 is attached to the cartridge attachment portion 21, the step S26 The process proceeds to S11.
Next, in the ink filling process (step S11), the ink control device 61a instructs the supply pump driving means 61c to open the supply pump 60. Then, the ink control device 61a instructs the CPU 46a to drive the suction pump 40b via the suction pump driving means 46f, and the ink W stored in the cartridge 51 is supplied to the first pipe 53, the connection pipe 59b, and the second pipe 54. And it fills in the inkjet head 58, and transfers to step S12 (refer FIG. 10).
Since the connection pipe 59b is configured to directly connect the two valve unit main bodies 80, when the ink W is filled, the air in the connection pipe 59b tends to escape. Accordingly, when the ink W stored in the cartridge 51 is filled, the air in the order of the first pipe 53, the connection pipe 59b, the second pipe 54, and the inkjet head 58 is pushed out, and the first pipe 53, the connection pipe 59b. The second pipe 54 and the inkjet head 58 can be filled with the ink W without introducing air.
Next, in the vacuum auxiliary tank connection step (step S12), the ink control device 61a instructs the supply pump driving means 61c to close the supply pump 60.
Then, the operator removes the dummy sub tank 59 from the sub tank attaching portion 22 and attaches the sub tank 52 to the sub tank attaching portion 22.
Thereby, each of the joint member 90 provided at the other end 53b of the first pipe 53 and the joint member 90 provided at the one end 54a of the second pipe 54 and the two valve portion main bodies 80 provided in the dummy sub tank 59 are provided. The connection is released. Further, the two joint members 90 are connected to the two valve unit bodies 80 provided in the sub tank 52 in which the inside of the sub tank bag 52b is previously evacuated (see FIG. 11).
When the sub tank detecting means 63 detects that the sub tank 52 is attached to the sub tank attaching portion 22, the ink control device 61a proceeds to step S13.
The joint member 90 provided at the other end 53 b of the first pipe 53 is provided with an ink supply hole 96. However, when the supply pump 60 is in the closed state, the connection between the joint member 90 and the valve body 80 is released, and the other end 53b of the first pipe 53 is disposed at the uppermost position of the first pipe 53. Thus, air does not flow in from the other end 53b of the first pipe 53.
The joint member 90 provided at one end 54a of the second pipe 54 is provided with an ink supply hole 96, and the ink jet head 58 connected to the other end 54b of the second pipe 54 is provided with a nozzle hole 58a. Since the nozzle hole 58a is disposed above the ink supply hole 96, the ink W tends to flow from the other end 54b side of the second pipe 54 to the one end 54a side by its own weight. However, since the nozzle hole 58a is very small and the viscosity of the ink W is high, the ink W at the other end 54b cannot flow toward the one end 54a. Thereby, the ink W on the one end 54a side also does not move, and air does not flow into the second pipe 54.
Thus, even if the connection between the valve body 80 and the joint member 90 is released, air does not flow in from each of them, and as described above, air flows even if the valve body 80 and the joint member 90 are connected. There is nothing.
In this way, the attachment / detachment mechanism includes the valve body 80, the joint member 90, the first pipe 53, the supply pump 60, the second pipe 54, and the inkjet head 58, and the other end 53 b of the first pipe 53 and the second pipe 54. The one end 54a and the sub tank 52, or the other end 53b of the first pipe 53 and the one end 54a of the second pipe 54 and the dummy sub tank 59 can be connected and separated without flowing air.
Further, the sub tank 52 in which the inside of the connection pipe 59b is previously evacuated can be used as a common part regardless of the color of the ink W stored in the cartridge 51. Therefore, the parts necessary for the ink supply system 50 are used. Can be reduced.
Finally, in the vacuum auxiliary tank filling step (step S13), the ink control device 61a instructs the supply pump driving means 61c to drive the supply pump 60 and fills the sub tank 52 with the ink W stored in the cartridge 51. (See FIG. 12).
Thus, according to the ink jet printer of the embodiment of the present invention, the cartridge 51, the first pipe 53, the sub tank 52, the second pipe 54, and the ink jet head 58 are filled with the ink W without introducing air, and ready for printing. It becomes possible to do. For this reason, it is not necessary to defoam the ink by the opening / closing valve provided in the tube provided in the auxiliary tank which has been conventionally performed, and the ink supply work when starting to use the inkjet printer 1 can be facilitated. .
In addition, the tube and the on-off valve provided in the conventional auxiliary tank are not necessary, and the dummy sub tank 59, which is a component used for venting the air in the ink supply system 50 during normal use, is removed. The overall configuration of the ink supply system 50 of the ink jet printer can be reduced in size and simplified.
FIG. 13 shows a conventional ink supply system as a comparative example. The conventional ink supply system is not provided with the dummy sub tank 59.
For this reason, first, the sub tank 67 is attached to the sub tank mounting portion at an angle to collect air at the upper portion of the sub tank 67, and then the air collected at the upper portion is forced to flow toward the inkjet head 68 together with the ink.
On the other hand, in this embodiment, as shown in FIG. 12, since the ink supply system 50 can prevent the inflow of air, the sub tank 52 can be arranged horizontally. A case will be described in which the sub tank 52 is disposed horizontally and the water head difference H1 + water head difference H2 from the nozzle hole 58a, that is, the water head difference is managed so that all ink in the sub tank 52 can be used for printing. In the conventional ink supply system shown in FIG. 13, if the ink in the range from the water head difference H1 to the water head difference H2 from the nozzle hole can be used for printing as in the present embodiment, the sub tank 67 is attached obliquely. As a result, the amount of ink that cannot be used is increased as compared with the case of mounting horizontally. That is, ink that cannot be used within the range of the water head difference H3 and the water head difference H2. As a result, the ink that can be used in the sub tank 52 in the embodiment of the present invention also leaves the ink in the range A shown in FIG. 13, that is, the ink in the range of the water head difference H3 to the water head difference H2 in the conventional ink supply system. become.
Therefore, in the supply system of this embodiment, more ink in the sub tank can be used for printing.
Hereinafter, a second embodiment of the present invention will be described. FIG. 14 is a configuration diagram of an ink supply system of an ink jet printer.
For convenience of explanation, in the second embodiment of the present invention, the same reference numerals are given to the same components as those described in the first embodiment, and the description thereof is omitted.
There are two differences between the second embodiment and the first embodiment. The first difference is that in the first embodiment, as shown in FIG. 4, the sub-tank 52 including the sub-tank bag 52 b in which the inside is previously evacuated is used. On the other hand, in the second embodiment, as shown in FIG. 14, a sub-tank 64 filled with ink W by eliminating internal air is used instead of the sub-tank 52.
That is, in the second embodiment, the sub tank bag 64b provided in the sub tank 64 excludes the air inside thereof and is filled with the ink W, and the air is supplied by the two valve body 80 provided in the sub tank 64. Inflow. The sub-tank 64 includes a sub-tank case 64a made of a resin molded in a box shape, a sub-tank bag 64b disposed inside the sub-tank case 64a and filled with ink W therein, and two valve unit bodies 80.
The second difference is that, in the first embodiment, in order to keep the inside of the sub tank bag 52b provided in the sub tank 52 in a vacuum, the urging spring 84 provided in the valve body 80 has a strength that can withstand atmospheric pressure. The thing which has power was used. On the other hand, in the second embodiment, since the sub tank bag 64b is filled with the ink W, the urging force of the urging spring 84 may be set to be weaker than the urging force in the first embodiment.
Next, an ink supply method in the ink jet printer of the present invention will be described. FIG. 15 is a flowchart of the ink supply method, and FIG. 16 is an explanatory diagram showing steps of the ink supply method of the ink supply system.
The second embodiment is the same as the first embodiment up to the ink filling step (step S11) shown in FIG. 7, and only the subsequent steps are different.
As shown in FIG. 15, in the filled auxiliary tank connecting step (step S16) performed following the ink filling step (step S11), the worker removes the dummy sub tank 59 from the sub tank mounting portion 22 from the state shown in FIG. Remove and attach the sub tank 64 to the sub tank mounting portion 22.
Thereby, each of the joint member 90 provided at the other end 53b of the first pipe 53 and the joint member 90 provided at the one end 54a of the second pipe 54 and the two valve portion main bodies 80 provided in the dummy sub tank 59 are provided. The connection is released. Further, the two joint members 90 are connected to the two valve section main bodies 80 provided in the sub tank 64 filled with ink W by removing the air inside (see FIG. 16).
Thus, according to the ink jet printer of the second embodiment of the present invention, the sub tank 64 filled with the ink W with the internal air removed is used, so the ink W stored in the cartridge 51 is filled in the sub tank 64. A process becomes unnecessary. Therefore, the ink supply operation can be performed in a short time.
The first embodiment and the second embodiment of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and the configuration does not depart from the gist of the present invention. Changes are also included.
For example, in the first embodiment, the dummy sub tank 59 is attached to the sub tank attaching portion 22, the dummy sub tank 59 attached to the sub tank attaching portion 22 is replaced with the sub tank 52, or the cartridge 51 is attached to the cartridge attaching portion 21. The worker performed the work. However, a sub-tank exchange device and a cartridge exchange device that automatically perform the above-described operation based on a command from the ink supply control unit 61 may be newly provided.
In addition, it can be set as the same structure also in said 2nd embodiment.
In the first embodiment and the second embodiment, the dummy sub tank 59 including the connection pipe 59b that directly connects the two valve unit bodies 80 is used. However, instead of the connection pipe 59b, a dummy sub tank bag may be used in which the space between each of the two valve body 80 is sealed and the inner volume is smaller than that of the sub tank bag 52b.
Since the internal volume of the dummy sub tank is smaller than that of the sub tank 52, the ink W can be easily filled in the dummy sub tank 59. The dummy sub-tank bag is used in place of the dummy sub-tank connected to the other end 53b of the first pipe 53 and the one end 45a of the second pipe 54, that is, instead of the connection pipe 59b of the dummy sub-tank 59 shown in FIG. The ink W stored in the cartridge 51 is guided from the first pipe 53 from the state where it has been. Then, it becomes possible to fill the ink W while preventing air from entering the first pipe 53, the auxiliary connecting means, the second pipe 54, and the inkjet head 58.
Further, the sub tank detecting means 63 and the cartridge detecting means 62 provided in the ink supply system 50 in the first embodiment and the second embodiment may be omitted. This is because even if the sub tank detecting means 63 and the cartridge detecting means 62 are not provided, the operator can detect the sub tank 52 and the dummy sub tank 59 attached to the sub tank attaching portion 22 and the cartridge 51 attached to the cartridge attaching portion 21. .
In the first embodiment and the second embodiment, the cartridge 51 is not attached to the cartridge attaching portion 21 and the dummy sub tank 59 is not yet attached to the sub tank attaching portion 22 before using the inkjet printer 1. Each process was described as being in a state.
However, before the ink jet printer 1 is started to be used, if the cartridge 51 is previously attached to the cartridge attaching portion 21 and the dummy sub tank 59 is attached to the sub tank attaching portion 22, respectively, the auxiliary connecting means main tank connecting step (step) S10) may be omitted and the steps after the ink filling step (step S11) may be performed.
In the first embodiment and the second embodiment, the first pipe 53, the connection pipe 59b, the second pipe 54, and the inkjet head 58 of the ink supply system 50 to which the dummy sub tank 59 is attached are stored in the cartridge 51. The suction pump 40b was used to fill the ink W thus formed. However, since the cartridge bag 51b is flexible, the first pipe 53, the connection pipe 59b, and the second pipe 54 are pressed by pressing the cartridge case 51a in which the ink W is stored without using the suction pump 40b. Ink jet head 58 may be filled with ink W.
In the second embodiment, the two valve unit bodies 80 are attached to one side of the sub tank case 64a of the sub tank 64.
However, as shown in FIG. 17A, one valve part main body 80 may be attached to each side of the sub tank case 64a.
In this case, the sub-tank mounting portion 22 is provided with a lid 24 that can be freely opened and closed to the sub-tank mounting portion 22, and the joint member 90 provided at the other end 53 b of the first pipe 53 is attached to the lid 24. become.
When the sub tank 64 is attached to the sub tank attaching portion 22, the sub tank 64 is connected to one end 54 a of the second pipe 54. Then, the sub tank 64 is connected to the other end 53 b of the first pipe 53 by closing the lid 24. Thus, the sub tank 64 is set in the ink supply system 65.
In addition, since the connection between the sub tank 64 and the other end 53b of the first pipe 53 is released when the lid 24 is opened, it is preferable that an opening / closing sensor 25 for detecting the opening / closing of the lid 24 and for warning is provided.
Further, as shown in FIG. 17B, the dummy sub tank 66 has a structure in which one valve body 80 is attached to each side of a dummy sub tank case 66a made of resin formed in a box shape, and the connection pipe 66b. Has a substantially straight pipe shape.
In the first embodiment, the same configuration can be used.
Hereinafter, a third embodiment of the present invention will be described. FIG. 18A is a configuration diagram of an ink supply system of an ink jet printer. FIG. 18B is an explanatory diagram illustrating the first dummy sub tank 107 used in the third embodiment of the present invention. FIG. 18C is an explanatory diagram for explaining the second dummy sub tank 108 used in the third embodiment of the present invention. FIG. 18 (d) is an explanatory view illustrating a second sub tank used in the third embodiment of the present invention. FIG. 18 (e) is an explanatory view illustrating a second cartridge used in the third embodiment of the present invention.
For convenience of explanation, in the third embodiment of the present invention, the same components as those described in the second embodiment are denoted by the same reference numerals, and description thereof is omitted.
With the ink supply system 111 of the present embodiment, the ink ejected from the inkjet head 58 can be exchanged from the first ink W1 to the second ink W2 by the method described below. The first ink W1 and the second ink W2 may have different ink colors, or may have the same ink color and different solvents.
The ink supply system 111 differs from the ink supply system 50 of the second embodiment shown in FIG. 14 in the following two points.
First, in the ink supply system 111, a first dummy sub tank 107 and a second dummy sub tank 108 are used in place of the dummy sub tank 59 used in the ink supply system 50.
The first dummy sub-tank 107 includes a dummy sub-tank case 107a made of a resin molded in the same shape as the sub-tank case 104a, two valve unit main bodies 80, resin directly connecting the two valve unit main bodies 80, and the like. And a U-shaped connection pipe 107b formed by the above method.
Similarly, the second dummy sub-tank 108 is formed between a dummy sub-tank case 108a made of a resin molded in a box shape having the same shape as the sub-tank case 104a, the two valve part main bodies 80, and the two valve part main bodies 80. And a U-shaped connection pipe 108b formed of resin or the like directly connected.
Second, in the ink supply system 111, instead of the second pipe 54 provided in the ink supply system 50, one end 55a is connected to the first sub tank 104, and the joint member 90 is provided at the other end 55b. A first divided pipe 55 and a second divided pipe 56 having a valve body 80 at one end 56 a and the other end 56 b connected to the inkjet head 58 are provided.
The valve body 80 provided at one end 56a of the second divided pipe 56 and the joint member 90 provided at the other end 56b of the first divided pipe 55 correspond to an air introduction valve in the claims. To do.
In the third embodiment, the first sub tank 104 and the second sub tank 105 are used in place of the sub tank 64 used in the second embodiment.
The difference between the first sub tank 104 and the sub tank 64 is that the filled ink is the ink W in the sub tank 64, whereas the first ink W 1 is in the first sub tank 104. On the other hand, the second sub tank 105 is different from the sub tank 64 in that the filled ink is the ink W in the sub tank 64 while the second ink W2 is in the second sub tank 105.
That is, the first sub tank 104 includes a sub tank case 104a made of a resin molded in a box shape, a sub tank bag 104b disposed inside the sub tank case 104a and filled with the first ink W1, and two valve portions. A main body 80.
Similarly, the second sub tank 105 includes a sub tank case 105a made of a resin molded in a box shape, a sub tank bag 105b disposed inside the sub tank case 105a and filled with the second ink W2, and two sub tank cases 105a. And a valve body 80.
In the third embodiment, the first cartridge 101 and the second cartridge 102 are used instead of the cartridge 51 used in the second embodiment.
The difference between the first cartridge 101 and the cartridge 51 is that the stored ink is the ink W in the cartridge 51 and the first ink W1 in the first cartridge 101. On the other hand, the second cartridge 102 is different from the cartridge 51 in that the stored ink is the ink W in the cartridge 51 and the second ink W2 in the second cartridge 102.
That is, the first cartridge 101 includes a cartridge case 101a made of a resin molded in a box shape, a cartridge bag 101b that is disposed inside the cartridge case 101a and stores the first ink W1 by removing the air inside the cartridge case 101a. A cartridge connection portion 101c serving as an entrance of the first ink W1 from the cartridge bag 101b.
Similarly, the second cartridge 102 includes a cartridge case 102a made of a resin molded in a box shape, and a cartridge bag 102b that is disposed inside the cartridge case 102a and stores the second ink W2 by eliminating the air inside. And a cartridge connection portion 102c that serves as an entrance / exit of the second ink W2 from the cartridge bag 102b.
As in the above embodiment, the sub tank bag 104b, the sub tank bag 105b, the cartridge bag 101b, and the cartridge bag 102b are made of a thin polyethylene bag or the like with aluminum deposited on the surface thereof, and are flexible and pushed by hand. It can also be extruded.
Next, an ink supply method in the ink jet printer of the present invention will be described. FIG. 19 is a flowchart of the ink supply method, and FIGS. 20 to 24 are explanatory views showing each step of the ink supply step.
When exchanging the ink from the first ink W1 to the second ink W2, as shown in FIG. 18, the joint member 90 provided at the other end 53b of the first pipe 53 and one end of the first divided pipe 55 are provided. Each of the joint members 90 provided at 55a is connected to the two valve section main bodies 80 provided in the first sub tank 104. The first cartridge 101 is connected to one end 53 a of the first pipe 53. The joint member 90 provided at the other end 55 b of the first divided pipe 55 is connected to the valve body 80 provided at one end 56 a of the second divided pipe 56. The first pipe 53, the first divided pipe 55, the second divided pipe 56, and the inkjet head 58 are filled with the first ink W1.
When receiving an instruction to replace ink from the CPU 46a of the main control unit 46, the ink control device 61a of the ink supply control unit 61 first supplies the supply pump drive unit 61c in the first auxiliary connection unit connection step (step S21). To instruct the supply pump 60 to be closed.
The operator of the ink jet printer is provided in each of the joint member 90 provided at the other end 53 b of the first pipe 53 and the joint member 90 provided at the one end 55 a of the first divided pipe 55 and the first sub tank 104. The connection between the two valve body 80 is released. Then, the two joint members 90 are connected to the two valve unit main bodies 80 provided in the first dummy sub tank 107 (see FIG. 20).
The ink control device 61a detects that the first dummy sub tank 107 is attached to the sub tank attaching portion 22 by the sub tank detecting means 63, and further detects that the first cartridge 101 is attached to the cartridge attaching portion 21 by the cartridge detecting means 62. If detected, the process proceeds to step S22.
Next, in the first ink main tank storing step (step S22), the ink control device 61a instructs the supply pump driving means 61c to open the supply pump 60.
Then, the operator temporarily disconnects the connection between the joint member 90 provided at the other end 55b of the first divided pipe 55 and the valve body 80 provided at the one end 56a of the second divided pipe 56, and the joint member The air is introduced into the first divided pipe 55 from 90, and the process proceeds to step S23 (see FIG. 21).
Then, at least a part of the first ink W1 in the first divided pipe 55 and the first pipe 53 is accommodated in the cartridge bag 101b of the first cartridge 101.
The amount of the first ink W1 accommodated in the cartridge bag 101b is the maximum of the total volume of the first divided pipe 55 and the first pipe 53, and the amount of ink discarded when replacing the ink is more effectively suppressed. be able to.
Next, in the first second auxiliary connecting means replacement step (step S23), the ink control device 61a instructs the supply pump driving means 61c to close the supply pump 60.
The operator then includes a joint member 90 provided at the other end 53 b of the first pipe 53 and a joint member 90 provided at the one end 55 a of the first split pipe 55 and two pieces provided in the first dummy sub tank 107. The connection of the valve body 80 is released. Then, the two joint members 90 are connected to the two valve unit main bodies 80 provided in the second dummy sub tank 108.
Further, in the first second main tank replacement step (step S24), the operator releases the connection between the one end 53a of the first pipe 53 and the first cartridge 101, and the one end 53a of the first pipe 53 and the second end. The cartridge 102 is connected (see FIG. 22). Then, a signal indicating the end of step S24 is sent to the ink control device 61a via the input / output panel 47, and the process proceeds to step S25.
Next, in the second ink filling step (step S25), when the ink control device 61a detects that step S24 is completed, it instructs the supply pump drive means 61c to open the supply pump 60. Further, the suction pump 40b is driven to supply the second ink W2 stored in the second cartridge 102 to the first pipe 53, the connection pipe 108b of the second dummy sub tank 108, the first divided pipe 55, and the second divided pipe 56. Then, the ink jet head 58 is filled, the suction pump 40b is stopped, and the process proceeds to step S26 (see FIG. 23).
Since the connection pipe 108b is configured to directly connect the two valve unit main bodies 80, air in the connection pipe 108b is easily released when the second ink W2 is filled. Accordingly, when filling the second ink W2 stored in the second cartridge 102, the air in the order of the first pipe 53, the connection pipe 108b, the first divided pipe 55, the second divided pipe 56, and the inkjet head 58 is included. Is pushed out, and the first pipe 53, the connection pipe 59b, the second pipe 54, and the inkjet head 58 can be filled with the second ink W2 without air.
Further, when the second ink W2 is filled, the first ink W1 stored in the first pipe 53, the first divided pipe 55, the second divided pipe 56, and the inkjet head 58 is discharged from the inkjet head 58 side. Discharged and discarded. Since at least a part of the first ink W1 in the first divided pipe 55 is accommodated in the first cartridge 101 in advance, the amount of the first ink W1 to be discarded can be suppressed.
Finally, in the second auxiliary tank connecting step (step S26), the ink control device 61a instructs the supply pump driving means 61c to close the supply pump 60.
The operator then includes a joint member 90 provided at the other end 53 b of the first pipe 53 and a joint member 90 provided at the one end 55 a of the first split pipe 55 and the two dummy sub tanks 108. The connection of the valve body 80 is released. Then, the two joint members 90 are connected to the two valve section main bodies 80 provided in the second sub tank 105 (see FIG. 24).
Since at least a part of the first ink W1 in the first divided pipe 55 is accommodated in the first cartridge 101 in advance, when the second ink W2 is filled in the first divided pipe 55, the second ink W2 is used. It is possible to suppress the amount of the first ink W1 to be mixed. For this reason, mixing of the first ink W1 when the first ink W1 is replaced with the second ink W2 can be reduced, and the ink can be replaced more reliably.
In this embodiment, as in the first embodiment and the second embodiment, the first dummy sub tank 107 is attached to the sub tank attachment portion 22, the first cartridge 101 is attached to the cartridge attachment portion 21, the valve portion The operation of temporarily releasing the connection between the main body 80 and the joint member 90 may be automatically performed under the command of the ink supply control unit 61.
In the present embodiment, as in the first embodiment and the second embodiment, since the cartridge bag 102b and the like are flexible, by pressing the cartridge case 102a without using the suction pump 40b. The second ink W2 may be filled.
In the present embodiment, as shown in FIG. 17A in the first and second embodiments, for example, one valve body 80 is provided on each side of the sub tank case 104a of the first sub tank 104. It may be attached.
Further, the sub tank detection means 63 and the cartridge detection means 62 provided in the ink supply system 111 in this embodiment may be eliminated. Even without the sub-tank detection means 63 and the cartridge detection means 62, the operator can detect the first sub-tank 104 and the first dummy sub-tank 107 attached to the sub-tank attachment part 22 or the first cartridge 101 attached to the cartridge attachment part 21. This is because detection is possible.
Hereinafter, a first modification will be described.
For convenience of explanation, in the first modification, the same components as those described in the embodiment of the present invention are denoted by the same reference numerals, and the description thereof is omitted.
The ink supply system of this modification is the same as the ink supply system 111 of the third embodiment shown in FIG. 18, and further, the first sub tank 104, the second sub tank 105, the first cartridge 101, and the second cartridge shown in FIG. 102, the first dummy sub tank 107, the second dummy sub tank 108, and the cleaning cartridge 103 shown in FIG. 25 are used.
That is, the cleaning cartridge 103 includes a cartridge case 103a made of a resin molded in a box shape, a cartridge bag 103b that is disposed inside the cartridge case 103a and stores a cleaning liquid C for cleaning ink, and a cleaning liquid C from the cartridge bag 103b. And a cartridge connection portion 103c serving as a doorway.
Further, with the ink supply system of the present modification, the ink ejected from the inkjet head 58 can be replaced while being cleaned in the middle by the method described below from the first ink W1 to the second ink W2.
Next, an ink supply method in the ink supply system of the first modification will be described. FIG. 26 is a flowchart of the ink supply method, and FIGS. 27 to 29 are explanatory views showing the steps of the ink supply method. A part of the explanatory view showing each step is the same as that of the third embodiment of the present invention, and the description will be given with reference thereto.
As shown in FIG. 26, the ink supply method by the ink supply system according to the first modification is the first ink main tank storing step of the ink supply method by the ink supply system of the third embodiment of the present invention shown in FIG. A cleaning main tank connection step (step S27) and a cleaning step (step S28) are inserted between (step S22) and the first second auxiliary connecting means replacement step (step S23).
Following the first ink main tank storing step (step S22), in the cleaning main tank connecting step (step S27) performed from the state shown in FIG. The connection with the cartridge 101 is released, and the one end 53a of the first pipe 53 and the cleaning cartridge 103 are connected. Then, a signal indicating the end of step S27 is sent to the ink control device 61a via the input / output panel 47, and the process proceeds to step S28 (see FIG. 27).
Next, in the cleaning process (step S28), when the ink control device 61a detects that step S27 has been completed, the suction pump 40b is driven to supply the cleaning liquid C stored in the cleaning cartridge 103 to the first pipe 53, The connecting pipe 107b, the first divided pipe 55, the second divided pipe 56 and the ink jet head 58 of the first dummy sub tank 107 are filled, the first ink W1 is sucked out, the ink path is washed, and the suction pump 40b is stopped. Control proceeds to step S23 (see FIG. 28).
Thus, since the inside of the first pipe 53, the first divided pipe 55, the second divided pipe 56 and the inkjet head 58 is washed with the cleaning liquid C, when the second ink W2 is filled later, the first ink W1 and It is possible to prevent the second ink W2 from being mixed.
Next, when the first second auxiliary connecting means replacement step (step S23) and the first second main tank replacement step (step S24) described in the third embodiment of the present invention are performed, as shown in FIG. It becomes a state.
Since the subsequent steps are the same as those described in the third embodiment of the present invention, the description thereof will be omitted.
Hereinafter, a second modification will be described.
For convenience of explanation, in the second modification, the same components as those described in the above-described embodiment of the present invention and the first modification are denoted by the same reference numerals, and the description thereof is omitted.
With the ink supply system of this modification, the ink ejected from the inkjet head 58 can be exchanged from the first ink W1 to the second ink W2 by the method described below.
The ink supply system of this modification is the same as the ink supply system 111 of the third embodiment shown in FIG. 18, and further, the first sub tank 104, the second sub tank 105, the first cartridge 101, and the second cartridge shown in FIG. 102, a second dummy sub tank 108 is used.
Next, an ink supply method in the ink supply system of the second modification will be described. FIG. 30 is a flowchart of the ink supply method, and FIGS. 31 to 34 are explanatory diagrams showing respective steps of the ink supply method.
When receiving a command to replace the ink from the CPU 46a of the main control unit 46, the ink control device 61a of the ink supply control unit 61 first starts the ink control device 61a in the first ink auxiliary tank storing step (step S31). The supply pump 60 is opened.
Then, the operator of the inkjet printer temporarily releases the connection between the joint member 90 provided at the other end 55 b of the first divided pipe 55 and the valve body 80 provided at the one end 56 a of the first divided pipe 56. Then, air is introduced from the joint member 90 into the first divided pipe 55, and the process proceeds to step S32 (see FIG. 31).
Then, at least a part of the first ink W <b> 1 in the first divided pipe 55 is stored in the sub tank bag 104 b of the first sub tank 104. Accordingly, it is possible to suppress the amount of ink discarded when replacing ink.
Next, in the second auxiliary connecting means connecting step (step S <b> 32), the operator can use the joint member 90 provided at the other end 53 b of the first pipe 53 and the joint member provided at the one end 55 a of the first divided pipe 55. The connection between each of 90 and the two valve body 80 provided in the first sub-tank 104 is released. Then, the two joint members 90 are connected to the two valve unit main bodies 80 provided in the second dummy sub tank 108.
Furthermore, in the first second main tank replacement step (step S33), the operator releases the connection between the one end 53a of the first pipe 53 and the first cartridge 101, and the one end 53a of the first pipe 53 and the second end. The cartridge 102 is connected. Then, a signal indicating the end of step S33 is sent to the ink control device 61a via the input / output panel 47, and the process proceeds to step S34 (see FIG. 32).
Next, in the second ink filling step (step S34), when the ink control device 61a detects that step S33 has been completed, the suction pump 40b is driven to store the second ink W2 stored in the second cartridge 102. Are filled into the first pipe 53, the connection pipe 108b of the second dummy sub tank 108, the first divided pipe 55, the second divided pipe 56, and the ink jet head 58, and after the filling is completed, the suction pump 40b is stopped, and step S35 is performed. (See FIG. 33).
Finally, in the second auxiliary tank connection step (step S35), the operator can use the joint member 90 provided at the other end 53b of the first pipe 53 and the joint member 90 provided at the one end 55a of the first split pipe 55. And the two valve unit main bodies 80 provided in the second dummy sub tank 108 are disconnected. Then, the two joint members 90 are connected to the two valve section main bodies 80 provided in the second sub tank 105 (see FIG. 34).
Thus, according to the ink jet printer of the second modification, it is possible to suppress the inflow of air into the ink when the ink is switched, so that the tube provided in the conventional auxiliary tank is provided. In addition, it is not necessary to remove the ink bubbles by the opening / closing valve, and the ink can be easily replaced.
Hereinafter, a third modification will be described.
For convenience of explanation, in the third modification, the same components as those described in the embodiment of the present invention and the other modifications are denoted by the same reference numerals, and the description thereof is omitted.
The ink supply system of this modification is the same as the ink supply system 111 of the third embodiment shown in FIG. 18, and further, the first sub tank 104, the second sub tank 105, the first cartridge 101, and the second cartridge shown in FIG. 102, the second dummy sub tank 108, and the cleaning cartridge 103 shown in FIG. 25 are used.
Next, an ink supply method in the ink supply system of the third modification will be described. FIG. 35 is a flowchart of the ink supply method, and FIGS. 36 to 37 are explanatory diagrams showing steps of the ink supply method. Moreover, since a part of explanatory drawing which shows each process becomes the same as the explanatory drawing of a 2nd modification, it demonstrates with reference also to it.
As shown in FIG. 35, the ink supply method by the ink supply system according to the third modification is the second auxiliary connecting means connecting step (steps) of the ink supply method by the ink supply system of the second modification shown in FIG. A cleaning main tank connection step (step S36) and a cleaning step (step S37) are inserted between S32) and the first second main tank replacement step (step S33).
From the state shown in FIG. 31, the second auxiliary connecting means connecting step (step S32) described in the second modification is performed, followed by the cleaning main tank connecting step (step S36). In this cleaning main tank connection step, the operator of the inkjet printer releases the connection between the first end 53a of the first pipe 53 and the first cartridge 101, and connects the end 53a of the first pipe 53 and the cleaning cartridge 103. Then, a signal indicating the end of step S36 is sent to the ink control device 61a via the input / output panel 47, and the process proceeds to step S37 (see FIG. 36).
Next, in the cleaning step (step S37), when the ink control device 61a detects that step S36 has been completed, the suction pump 40b is driven to supply the cleaning liquid C stored in the cleaning cartridge 103 to the first pipe 53, The connection pipe 108b, the first divided pipe 55, the second divided pipe 56, and the inkjet head 58 of the first dummy sub tank 108 are filled, the suction pump 40b is stopped, and the process proceeds to step S33 (see FIG. 37).
Since the subsequent steps are the same as the contents after the first second main tank replacement step (step S33) described in the second modification, the description thereof is omitted.
1 is a front view showing a first embodiment of an inkjet printer of the present invention. It is a block diagram of the carriage unit which comprises the inkjet printer shown in FIG. 1 is a block diagram of a first embodiment of an inkjet printer of the present invention. It is a block diagram of the ink supply system of 1st embodiment of the inkjet printer of this invention. It is explanatory drawing of a structure and an effect | action of the valve | bulb part main body and joint member of 1st embodiment of the inkjet printer of this invention. It is explanatory drawing of a structure and an effect | action of the valve | bulb part main body and joint member of 1st embodiment of the inkjet printer of this invention. It is a flowchart of the ink supply method of the ink supply system of 1st embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 1st embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 1st embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 1st embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 1st embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 1st embodiment of the inkjet printer of this invention. It is a block diagram of the conventional ink supply system shown as a comparative example. It is a block diagram of the ink supply system of 2nd embodiment of the inkjet printer of this invention. It is a flowchart of the ink supply method of the ink supply system of 2nd embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 2nd embodiment of the inkjet printer of this invention. (A) is explanatory drawing which shows the modification of embodiment of the inkjet printer of this invention. (B) is explanatory drawing of the dummy sub tank used for the modification of embodiment of the inkjet printer of this invention. (A) is a block diagram of the ink supply system of 3rd embodiment of the inkjet printer of this invention. (B) is explanatory drawing explaining the 1st dummy sub tank 107 used for 3rd embodiment of this invention. (C) is explanatory drawing explaining the 2nd dummy sub tank 108 used for 3rd embodiment of this invention. (D) is explanatory drawing explaining the 2nd sub tank used for 3rd embodiment of this invention. (E) is explanatory drawing explaining the 2nd cartridge used for 3rd embodiment of this invention. It is a flowchart of the ink supply method of the ink supply system of 3rd embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 3rd embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 3rd embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 3rd embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 3rd embodiment of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of 3rd embodiment of the inkjet printer of this invention. It is explanatory drawing of the ink supply system of the 1st modification of the inkjet printer of this invention. It is a flowchart of the ink supply method of the ink supply system of the 1st modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 1st modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 1st modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 1st modification of the inkjet printer of this invention. It is a flowchart of the ink supply method of the ink supply system of the 2nd modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 2nd modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 2nd modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 2nd modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 2nd modification of the inkjet printer of this invention. It is a flowchart of the ink supply method of the ink supply system of the 3rd modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 3rd modification of the inkjet printer of this invention. It is explanatory drawing which shows the process of the ink supply method of the ink supply system of the 3rd modification of the inkjet printer of this invention.
1 Inkjet printer 40b Suction pump 50, 111 Ink supply system 51 Cartridge (main tank)
52 Sub tank (auxiliary tank)
53 First pipe 53a One end of the first pipe 53b The other end of the first pipe 54 Second pipe 54a One end of the second pipe 54b The other end of the second pipe 58 Inkjet head 59 Dummy sub tank (auxiliary connection means)
59b Connection pipe 90 Joint member (detachable part)
101 First cartridge (first main tank)
102 Second cartridge (second main tank)
104 1st sub tank (1st auxiliary tank)
105 Second sub tank (second auxiliary tank)
107 First dummy sub tank (first auxiliary connecting means)
108 Second dummy sub tank (second auxiliary connecting means)
W ink W1 first ink W2 second ink
A first pipe whose one end is connected to a main tank in which ink is stored by eliminating internal air;
A second pipe having one end connected to an auxiliary tank connected to the other end of the first pipe by eliminating internal air;
An inkjet head connected to the other end of the second pipe and jetting the ink to print on a print medium;
An ink supply system for an inkjet printer comprising:
Auxiliary connection means used in exchange for the auxiliary tank and having a smaller internal capacity than the auxiliary tank,
The other end of the first pipe and the one end of the second pipe can be connected or separated at least from the auxiliary tank and the auxiliary connecting means, and when connected or separated, air is supplied to the auxiliary tank or the auxiliary connecting means. An ink supply system for an ink jet printer, wherein an attachment / detachment portion is provided for connection or separation without allowing the ink to flow.
The auxiliary connection means has a connection pipe that directly connects between a connection portion with the other end of the first pipe and a connection portion with one end of the second pipe,
Respective connection portions of the other end of the first pipe and one end of the second pipe and the auxiliary tank, and connections of the other end of the first pipe and one end of the second pipe and the auxiliary connection means. The ink supply system for an ink jet printer according to claim 1, wherein the part is provided with an attaching / detaching mechanism that can be connected and disconnected without flowing air.
The ink supply system for an ink jet printer according to claim 1,
The ink supply system of an ink jet printer, wherein the auxiliary tank is filled with ink by removing air inside.
An ink supply system for an ink jet printer according to claim 1;
An ink jet printer comprising: a suction pump for sucking the ink from the ink jet head side.
An ink supply method for an ink jet printer using the ink supply system for an ink jet printer according to claim 1, comprising:
Auxiliary connecting means main tank connecting step of connecting the auxiliary connecting means to each of the other end of the first pipe and one end of the second pipe, and connecting the main tank to one end of the first pipe;
An ink filling step of filling the ink stored in the main tank into the first pipe, the auxiliary connecting means, the second pipe, and the inkjet head;
The connection between the other end of the first pipe and one end of the second pipe and the auxiliary connecting means is released, and the other end of the first pipe and one end of the second pipe are connected to the auxiliary tank. A vacuum auxiliary tank connecting step,
An ink supply method for an ink jet printer, comprising: a vacuum auxiliary tank filling step of filling the auxiliary tank with the ink stored in the main tank.
The connection between the other end of the first pipe and the one end of the second pipe and the auxiliary connecting means is released, and the air inside the other end of the first pipe and the one end of the second pipe and the internal air are removed. And an auxiliary tank connecting step for connecting the auxiliary tank filled with ink, and an ink supply method for an ink jet printer.
A first pipe whose one end is connected to the first main tank in which the first ink is stored by eliminating the internal air;
A second pipe connected to one end of a first auxiliary tank connected to the other end of the first pipe filled with the first ink by eliminating internal air;
An air introduction valve that is provided in the second pipe and switches between introduction and shut-off of air to the second pipe;
An ink supply method for an ink jet printer, comprising: an ink jet head that is connected to the other end of the second pipe and that ejects the first ink, and that prints on a print medium with the first ink ejected from the ink jet head. And
The connection between the other end of the first pipe and the one end of the second pipe and the first auxiliary tank is released, and the other end of the first pipe and one end of the second pipe are connected to the first pipe. A first auxiliary connecting means connecting step for connecting with a first auxiliary connecting means having a connecting pipe that directly connects between the connecting portion with the other end of the second pipe and the connecting portion with one end of the second pipe;
A first ink main tank storing step of introducing air into at least the second pipe from the air introduction valve;
The connection between the other end of the first pipe and the one end of the two pipes and the first auxiliary connection means is canceled, and the other end of the first pipe and one end of the second pipe are connected to the first pipe. A first second auxiliary connection means exchange step for connecting to a second auxiliary connection means having a connection pipe that directly connects between a connection portion with the other end of the second pipe and a connection portion with one end of the second pipe;
The connection between the one end of the first pipe and the first main tank is released, and the one end of the first pipe is connected to the second main tank storing the second ink by eliminating the air inside. A first second main tank replacement step;
A second ink filling step of filling the second ink stored in the second main tank into the first pipe, the connection pipe of the second auxiliary connection means, the second pipe, and the inkjet head;
The connection between the other end of the first pipe and the one end of the second pipe and the second auxiliary connection means is released without flowing air, and the other end of the first pipe and the second pipe An ink for an ink jet printer, comprising: a second auxiliary tank connected to the second auxiliary tank filled with the second ink by excluding air inside and a second auxiliary tank connecting step for connecting one end without flowing air. Supply method.
JP2008026703A 2008-02-06 2008-02-06 Ink supply system for ink jet printer, ink supply method for ink jet printer, and ink jet printer Active JP5250275B2 (en)
JP2008026703A JP5250275B2 (en) 2008-02-06 2008-02-06 Ink supply system for ink jet printer, ink supply method for ink jet printer, and ink jet printer
US12/322,697 US8057030B2 (en) 2008-02-06 2009-02-05 Ink supplying system for ink jet printer, ink supplying method for ink jet printer, and ink jet printer
CN 200910007078 CN101503029B (en) 2008-02-06 2009-02-06 Ink supplying system for ink jet printer, ink supplying method for ink jet printer, and ink jet printer
EP20090152259 EP2088001B1 (en) 2008-02-06 2009-02-06 Ink supplying system for ink jet printer, ink supplying method for ink jet printer, and ink jet printer
JP2009184233A JP2009184233A (en) 2009-08-20
JP5250275B2 true JP5250275B2 (en) 2013-07-31
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JP2008026703A Active JP5250275B2 (en) 2008-02-06 2008-02-06 Ink supply system for ink jet printer, ink supply method for ink jet printer, and ink jet printer
US (1) US8057030B2 (en)
EP (1) EP2088001B1 (en)
JP (1) JP5250275B2 (en)
CN (1) CN101503029B (en)
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