JP3512057B2 - Ink jet recording device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink jet recording apparatus for printing on a large-sized recording medium using an ink jet recording head, and more particularly to an ink supply apparatus. . 2. Description of the Related Art An ink jet recording apparatus is a recording apparatus which performs a large amount of printing because a recording head which receives supply of ink from an ink supply source is reciprocated in a paper width direction of recording paper to perform printing. Installed the ink supply source in the housing,
A method of supplying ink to a recording head via a tube has been adopted. By the way, an ink jet recording apparatus is
Due to the fact that the ink in the pressure generating chamber is pressurized to generate ink droplets, if air bubbles are contained in the ink, the pressure of the ink is reduced and the ejection performance of the ink droplets is also reduced. Need to be supplied. For this reason, ink that has been sufficiently degassed at a factory is housed in an ink cartridge or an ink bag, and is packaged in an air-tight container. However, in an ink jet recording apparatus that prints a poster or the like using a large-sized recording medium, a large amount of ink is consumed at the time of printing. Therefore, as shown in FIG. An ink cartridge constituted by accommodating an ink bag A and an ink end detecting plate B for operating an ink end detector in an ink near end state and an ink end state in cases C and C ′ is used as ink replenishing means. . The ink bag A is composed of two films, for example, an aluminum laminate film sandwiched between a nylon film on the outside and a polyethylene film on the inside, with an aluminum foil as an intermediate layer in order to ensure gas barrier properties. It functions as a bag that flexibly deforms according to the amount of ink without loss. [0005] However, when the amount of ink is increased and the capacity of the bag is increased, the material of the bag requires strength and the rigidity of the bag increases. When the rigidity of the ink bag is increased as described above, it is difficult to smoothly supply the ink to the recording head. Usually, the upper limit is about 500 cc, and there is a limit to increasing the size of the ink bag. Further, since the connection with the recording apparatus is performed by inserting the ink supply needle of the ink supply ink tube into the septum E made of an elastic material such as rubber formed in the ink supply port D, the air is supplied at the time of attachment / detachment. In the case where the ink enters the path and therefore runs out of ink during printing, there is a problem that an operation for refilling the recording head with ink is required and the working efficiency is reduced. Furthermore, even if the remaining amount is large as an absolute amount, if the remaining amount will run out of ink in the future printing amount, priority is given to work efficiency and replacement with a new ink bag is adopted. There are also problems such as waste of ink and the necessity of an ink filling operation. SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and it is an object of the present invention to make it unnecessary to supply degassed ink from the outside, An object of the present invention is to provide an ink jet recording apparatus which does not require an operation of filling a recording head with ink after replenishment. In order to achieve the above object, according to the present invention, a recording head for discharging ink droplets in response to a print signal is mounted on a carriage, and a liquid is fed from an ink container. In an ink jet recording apparatus for supplying ink to the recording head via an ink supply tube by means, the ink container is configured as a source tank into which ink can be injected from the outside, and the source tank is externally arranged in order from the upstream side. A second tank provided with an ink degassing unit having an ink degassing unit provided with a hollow fiber bundle subjected to a negative pressure , a valve unit, and an ink near-end detecting unit, and connected via the second tank In addition to supplying ink to the recording head, the deaeration means is provided by a signal from the ink near-end detection means while the valve means is closed.
In was to run the degassing operation. [0008] A second tank for supplying ink to the recording head is provided.
When the ink reaches the ink near end, deaeration means and
In the condition that the flow path to the second tank is cut off by the valve means,
The second ink tank is executed during the deaeration operation.
Printing can be continued with the ink of the ink
Open the valve means and record the deaerated ink through the second tank.
Recording head. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The details of the present invention will be described below based on embodiments. FIG. 1 shows an embodiment of the present invention, and includes a frame 2 for forming a window 1 formed slightly wider than the width of a recording medium to be printed,
At the upper part of the window 1, ink-jet recording heads 4 and 5, which are reciprocally guided in the paper width direction by the carriage 3, and at the lower part, a paper guide member 6 for supporting recording paper are provided. A control panel 7 is formed at an end, and an ink tank housing 9 that can be opened and closed by a cover 8 is formed at the other side. FIG. 2 shows an embodiment of the present invention. A carriage 3 includes a recording head 4 for discharging black ink and a recording head 5 for discharging yellow, cyan, and magenta ink droplets. A buffer tank for mitigating fluctuations in ink pressure caused by reciprocation of the carriage, if necessary, to buffer ink transported from an ink supply system to be described later via ink supply tubes 12, 13, 14, and 15; It is configured to supply the ink directly to the recording heads 4 and 5 via a tank. The ink supply system includes lids 16a to 19a.
The tanks 16 to 19 can be supplied with ink, the deaerators 20 to 23, the stop valves 24 to 27, and the relay tanks 28 to 31 having air shielding properties. Former tank 1
6 to 19 are ink near-end detecting means 16b, respectively.
To 19b. In the non-printing area, a negative pressure is applied to prevent clogging due to ink drying of the recording heads 4 and 5 during non-printing and to initially fill the recording heads 4 and 5 with ink and to eliminate clogging. An operating capping device 32 is provided. The reference numeral 33 in the figure denotes a timing belt 34.
Indicates a carriage drive motor connected to the carriage 3. Each of the deaerators 20 to 23 has the same structure. For example, taking the example of the deaerator 20 as an example, a hollow fiber 40 having a through hole communicating from one end to the other end of the fiber will be described. And connect both ends of this
The hollow fibers 40 are housed in a sealed container 44 which receives a negative pressure from a vacuum pump 43 and are connected to the main tank 16 via a stop valve 45. It is configured to receive supply of ink from a pump 46 that performs the operation. The relay tanks 28 to 31 have the same structure. For example, the relay tank 28 will be described as an example. In this embodiment, an aluminum foil is used as an intermediate layer in order to secure gas barrier properties. An air reservoir 51 is formed in a flexible bag 50 using an aluminum laminate film sandwiched between two films, for example, a nylon film on the outside and a polyethylene film on the inside, at the uppermost position when installed. The other end is connected to the ink supply tube 12 as an inlet 52 and the other end as an outlet 53. The air reservoir 51 is opened to the atmosphere through a stop valve 54, and a detecting plate 55 for detecting the degree of deformation of the bag 50.
Is provided, and by detecting a displacement of the detection plate 55 due to the degree of deformation of the bag by a limit switch or the like (not shown), it is possible to detect an ink full state at the time of ink filling and an ink near-end state at the time of printing. ing. Next, among the operations of the apparatus configured as described above,
A description will be given of an example of a flow path connected to the recording head 4 with an emphasis on ink supply. The lid 16a of the ink source tank 16 is opened to inject the ink, and the lid 16a is closed after the injection. In this state, the stop valve 45 is opened, the vacuum pump 43 is operated, and the deaeration device 20
To supply ink. The ink that has flowed into the hollow fibers 40 is separated from dissolved air by the action of negative pressure acting from the outer periphery of the hollow fibers 40, and is discharged to the atmosphere by a vacuum pump 43. When the stop valves 24 and 54 are opened when the dissolved air of the ink is discharged, the ink is transferred to the relay tank 28.
Into the ink bag 5 forming the relay tank 28
Numeral 0 stores deaerated ink that flows while discharging the internal air to the atmosphere via the stop valve 54. When a predetermined amount of ink is filled in the ink bag 50 in this manner, the detection plate 55 detects that the ink is full, so the stop valve 24 is closed and the supply of ink to the ink bag 50 is completed. I do. Then, the stop valve 54 is closed to shut off the relay tank 28 from the atmosphere.
Is stopped. When the ink bag 50 is completely filled with ink, the recording head 4 is sealed by the capping device 32, and a negative pressure is applied to the recording head 4 by a suction pump (not shown) to remove the recording head 4 from the ink bag 50. Fill the ink while expelling the air in the flow path up to the ink. When print data is output from the host at the stage when the filling of the recording head 4 with ink is completed, the recording head 4 executes printing while ejecting ink droplets in accordance with the print data. The ink bag 50 supplies ink to the recording head 4 after being deformed in accordance with the amount consumed by the recording head 4 for printing. When the amount of ink in the ink bag 50 decreases to the near end in this manner, it is detected by the detection plate 55. As a result, the vacuum pump 43 operates and the stop valve 4
5 is opened, the ink in the original tank 16 is supplied to the deaerator 20 by the liquid sending pump 46, and the ink is deaerated by the hollow fibers 40. When the deaeration is completed, the stop valve 54 is opened to open the ink bag 50 to the atmosphere, and the stop valve 24 of the flow path is opened to inject the ink of the deaerator 20 into the ink bag 50. Also in this state, the ink bag 50 is open to the atmosphere, the pressure of the liquid sent from the deaerator 20 does not act on the recording head 4, and the flow path from the relay tank 28 to the ink jet recording head 4 Since the ink is still filled with the degassed ink, the printing can be continuously executed without the need to perform the operation of filling the recording head 4 with the ink. When a predetermined amount of ink is filled in the ink bag 50 in this manner, the detection plate 55 detects that the ink is full, so that the stop valve 24 is closed and the supply of ink to the ink bag 50 is completed. I do. Then, the stop valve 54 is closed to shut off the relay tank 28 from the atmosphere.
6 is stopped. When printing proceeds further and the ink in the original tank 16 decreases to the near end, a signal is output from the sensor 16b and an alarm is issued, so that non-degassing or degassing contained in a bottle or the like is not detected. Replenish the original tank 16 with sufficient ink. Of course, even in the near-end state, the relay tank 28 contains an amount of ink that can cover the printing amount required for the time required for the subsequent degassing operation. No need to interrupt printing. In the above embodiment, an independent vacuum pump 43 is provided for each deaerator, but the hollow fibers 40 are accommodated from a common vacuum pump via a pipe and a stop valve. The same effect can be obtained by connecting to the sealed container 44 and selectively applying a negative pressure by operating the stop valve.
In addition, a suction pump that supplies a negative pressure to the capping device 32 can be independently driven, and a branch pipe and a stop valve are connected to the suction port of the suction pump, whereby the capping device 32 and the deaerator are operated by operating the stop valve. Negative pressure can be selectively supplied to 20 to 23 selectively. Further, in the above-described embodiment, a flexible ink bag is used for the relay tank 28. However, for example, taking the first embodiment as an example, as shown in FIG. A sealed container 60 made of an air-insulating material such as the above is used, and sensors 61 and 62 for detecting two kinds of liquid levels, that is, a liquid level in an ink full state and an ink near-end state, are provided in the sealed container 60. It is clear that a similar effect is obtained even if a flow path that can be opened to the atmosphere is formed. According to this embodiment, the original tank 16
Is used as a temporary storage tank, and the capacity of the relay tank 60 is set to be equal to or larger than that of the ink container.
By degassing all at once and storing it in the relay tank 66, the cycle of the degassing operation can be extended, and the quality of the ink can be further stabilized. In the above-described embodiment, the liquid feed pump 46 is used to supply ink to the relay tank. However, when the head pressure of the original tanks 16 to 19 can be used, it is unnecessary. If the relay tanks 28 to 31 are small, they can be mounted on the carriage 3. In the above-described embodiment, an example has been described in which the recording apparatus scans the recording surface while moving the recording medium together with the recording head. Moving the head in two dimensions,
Further, the present invention can be applied to a recording apparatus of a type in which a recording head and a flat bed are moved in an orthogonal direction. According to this, only by changing the type of ink, it can be applied to a medium other than recording paper, for example, a metal or polymer material plate. Can also be printed. [0030]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing an embodiment of an ink jet recording head of the present invention. FIG. 2 is a diagram showing one embodiment of the present invention. FIG. 3 is a diagram showing a channel configuration of the above device. FIG. 4 is a view showing another embodiment of the present invention with a flow path configuration. FIG. 5 is a diagram illustrating an example of an ink cartridge used for a large-sized ink jet recording head. [Description of Signs] 3 Carriage 4, 5 Recording Head 9 Ink Tank Storage Units 12 to 15 Ink Supply Tubes 16 to 19 Original Tanks 20 to 23 Deaerators 24 to 27 Stop Valves 28 to 31 Relay Tank 40 Hollow Fiber

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-8-150732 (JP, A) JP-A-5-17712 (JP, A) JP-A-63-145039 (JP, A) JP-A-60-1985 179258 (JP, A) (58) Field surveyed (Int. Cl. ⁷ , DB name) B41J 2/175

Claims (1)

(57) [Claim 1] A recording head for ejecting ink droplets in response to a printing signal is mounted on a carriage, and the ink is recorded from an ink container by an ink supply tube via an ink supply tube. In an ink jet recording apparatus for supplying to a head, the ink container is configured as a source tank capable of injecting ink from the outside, and the source tank is provided with a hollow fiber bundle that is subjected to a negative pressure from the outside in order from the upstream side. A second tank provided with deaeration means having ink deaeration means, a valve means, and an ink near-end detection means, and supplies ink to the recording head via the second tank and the valve An ink jet recording apparatus in which a degassing operation is performed by the degassing means in response to a signal from the ink near-end detecting means while the means is closed.