JPH0920013A - Ink injection method and ink injector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce time required for injecting ink into an ink cartridge and inject a prescribed amount of ink correctly. SOLUTION: After a vacuum chamber 2 is set to a prescribed degree of vacuum by driving a vacuum pump 1 and opening the second electromagnetic valve 5, the second electromagnetic valve 5 is closed. After an ink cartridge 30 is mounted, pressure in the ink cartridge 30 is decreased by opening the first electromagnetic valve 4 and the third electromagnetic valve 6, and ink is supplied to the ink cartridge 30 from an ink tank 7, thus preventing ink 3 from leaking out from an air vent 9 and from being consumed wastefully from the ink tank 7, resulting in enhanced ink injection efficiency and correct ink injection. The device is simplified, and costs can be reduced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink injection method and an ink injection device for injecting ink into an ink cartridge for supplying ink to a print head of an ink jet printer.

[0002]

2. Description of the Related Art Conventionally, various ink injection methods and devices have been proposed for injecting ink into an ink cartridge for supplying ink to an inkjet head in an inkjet. For example, Japanese Patent Application Laid-Open
In JP-A-338196, after the ink tank and the recording head are integrally connected, the ejection port of the recording head is closed,
After switching the three-way switching valve to connect the ink tank and the vacuum pump to make the inside of the cartridge a vacuum state, the three-way switching valve is switched again to connect the ink tank and the tank containing the injected ink to the vacuum pump. Describes an ink injection method for injecting ink into a cartridge by vacuum suction and an apparatus therefor.

According to such an ink injecting method and device, it is possible to shorten the ink injecting time and prevent air residue from occurring in the connecting portion even when the ink tank and the recording head are connected. Is.

[0004]

However, in the ink injection method and apparatus described in the above-mentioned Japanese Patent Laid-Open No. 5-338196, the inside of the cartridge is evacuated via the vacuum pump after switching the three-way switching valve. The pre-stage and the post-stage in which the three-way switching valve is switched again to inject ink from the tank into the cartridge are required. As described above, since two steps are required when injecting the ink into the cartridge, it takes a long time to inject the ink, and there is a problem that it is still insufficient to shorten the time for injecting the ink. .

Further, the conventional ink injecting device has a complicated piping structure, and it is not easy to raise the vacuum degree of the entire device due to this, and the inside of the cartridge is evacuated. At this time, it is necessary to perform vacuum suction to a high degree of vacuum (10 Torr). Therefore, a large pump has to be provided as a vacuum pump, and there is a problem that the size of equipment is increased and the cost is increased.

The present invention has been made in order to solve the above-mentioned conventional problems, and it is possible to reduce the time required for injecting ink into an ink cartridge, to reduce the size of a vacuum pump, and to ensure low cost and reliability. An object is to provide an ink injection method and an ink injection device.

[0007]

To achieve the above object, according to a first aspect of the present invention, when injecting ink into an ink cartridge for supplying ink to a print head of an ink jet printer, the ink cartridge communicates with a vacuum pump. A method for injecting ink from an ink tank into an ink cartridge using decompression of a vacuum chamber, wherein a vacuum pump and a vacuum chamber are communicated with each other, and the vacuum chamber and the ink cartridge are not communicated with each other. The first step of driving the pump to bring only the vacuum chamber into a predetermined depressurized state, the vacuum pump and the vacuum chamber are disconnected, the vacuum chamber and the ink cartridge are connected, and the ink cartridge and the ink tank are connected. Secondly, the ink is injected into the ink cartridge from the ink tank by communicating with the decompressed vacuum chamber. Characterized in that it consists of a degree.

In the second aspect, in the second step, the time is counted from the time when the ink cartridge and the ink tank communicate with each other, and when the predetermined time is reached, the communication between the ink cartridge and the ink tank is cut off. Is characterized by.

According to another aspect of the present invention, there is provided an ink cartridge having an air vent hole at one end and an ink supply hole at the other end.
A vacuum chamber connected to the air vent hole of the ink cartridge via a first connection pipe, a vacuum pump connected to the vacuum chamber via a second connection pipe, and a third connection pipe to the ink supply hole of the ink cartridge. An ink tank connected to the ink tank via an ink tank, the ink tank being connected to the ink tank via an ink tank, the ink tank being connected to the ink tank via an ink tank.
A valve member, a second valve member arranged on the second connection pipe, a third valve member arranged on the third connection pipe, the first valve member, the second valve member and the second valve member. Control means for controlling opening and closing of three valve members, the control means closing the first valve member, opening the second valve member, driving the vacuum pump, and depressurizing the vacuum chamber to a predetermined pressure. After the state, the second valve member is closed, the first valve member and the third valve member are opened, and ink is injected from the ink tank into the ink cartridge by the predetermined decompression of the vacuum chamber. And

According to another aspect of the present invention, a timer is provided for counting the time from the time when the third valve member is opened, and the control means closes the first valve member when the timer counts a predetermined time. It is characterized by

[0011]

In the ink injecting method of the present invention having the above-described structure, first, the vacuum pump is driven by the vacuum pump while the vacuum chamber and the ink chamber are in communication with each other and the ink chamber is not in communication. Only the chamber is brought to a predetermined depressurized state, and then the vacuum pump and the vacuum chamber are not communicated with each other, the vacuum chamber and the ink cartridge are communicated with each other, and the ink cartridge and the ink tank are communicated with each other. Due to the pressure reduction in the vacuum chamber, the pressure inside the ink cartridge is reduced, and ink is injected into the ink cartridge from the ink tank.

Further, in the ink injecting apparatus of the present invention, the control means closes the first valve member, opens the second valve member, drives the vacuum pump, and brings the vacuum chamber into a predetermined depressurized state. And Thereafter, the control means closes the second valve member and opens the first valve member and the third valve member,
The inside of the ink cartridge is depressurized by the predetermined depressurization of the vacuum chamber, and the ink is injected into the ink cartridge from the ink tank.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An ink injection method and an ink injection device according to the present invention will be described in detail below with reference to the drawings based on an embodiment embodying the present invention. First, the overall configuration of the ink injection device according to this embodiment will be described with reference to FIG. Here, FIG. 1 is an explanatory diagram schematically showing the overall configuration of the ink injection device.

In FIG. 1, the ink injection device A basically comprises a vacuum pump 1, a vacuum chamber 2 and an ink cartridge 3.
0, an ink tank 7, a vacuum pump 1
And the vacuum chamber 2 through the second connection pipe 13
The ink cartridge 30 is connected to the ink cartridge 30 via the first connection pipe 14, and the ink cartridge 30 and the ink tank 7 are connected to each other via the third connection pipe 15.

The vacuum pump 1 is a pump for sucking the inside of the vacuum chamber 2 to a predetermined degree of vacuum, and the degree of vacuum is detected by a regulator 12 provided in the second connection pipe 13. Incidentally, in the ink injection device A of this embodiment,
The degree of vacuum inside the vacuum chamber 2 is 260 Torr to 60 Tor
It suffices if the suction is carried out to about r, so that a small pump can be used as the vacuum pump 1.

The second connecting pipe 13 connects the vacuum pump 1 and the vacuum chamber 2 to each other, and a second electromagnetic valve 5 is arranged near the vacuum pump 1.

Further, the first connecting pipe 14 connects the vacuum chamber 2 and the ink cartridge 30 to each other. One end of the first connecting pipe 14 is located under the vacuum chamber 2 and the other end thereof is the air vent hole 9 of the ink cartridge 30. It is connected to the. Further, a first electromagnetic opening / closing valve 4 is arranged in the first connection pipe 14 at a position near the air vent hole 9. The opening / closing of the first electromagnetic on-off valve 4 and the second electromagnetic on-off valve 5 is controlled via a control unit 16 described later.

An air vent hole 9 is formed at one end (upper end in FIG. 1) of the ink cartridge 30, and
An ink supply hole 8 is formed at the other end (lower end in FIG. 1). Here, the structure of the ink cartridge 30 will be described with reference to FIGS. 2 and 3. 2 is a perspective view of the ink cartridge 30, and FIG. 3 is an ink cartridge 30.
FIG.

2 and 3, the ink cartridge 30 has a rectangular parallelepiped shape, a circular ink supply hole 8 is formed in the bottom wall portion 30A, and the bottom wall portion 30A.
The side opposite to is opened to form an opening 30B. An ink cartridge lid 11 is fitted into the opening 30B, and the ink cartridge lid 11 is provided with an air vent hole 9 smaller than the ink supply hole 8. Here, the ink supply hole 8 has a relatively large diameter so that the ink 3 can be efficiently supplied into the ink cartridge 30, while the air vent hole 9 is provided if the air in the ink cartridge 30 can be discharged. Since it is sufficient, it has a small pore size.

Inside the ink cartridge 30 concerned,
As shown in FIG. 3, the foamable ink holder 10 is housed in a slightly compressed state. Such ink holder 10
Is for holding the ink 3 supplied from the ink tank 7 and the third connection pipe 15 through the ink supply hole 8 by impregnating the inside thereof. As the ink holder 10, for example, a foam such as sponge is used.
Further, a plurality of pressing wall portions 11A are formed on the side of the ink cartridge lid 11 that faces the ink holder 10 (on the left side in FIG. 3), and these pressing wall portions 11A are formed.
In order to prevent the inner surface of the ink cartridge lid 11 from directly contacting the ink holder 10, a gap B is formed between the inner surface of the ink cartridge lid 11 and the ink holder 10. With this configuration, it is possible to prevent the ink 3 impregnated and held in the ink holder 10 from being sucked into the first connection pipe 14 from the air vent hole 9 as much as possible.

The third connection pipe 15 is a pipe for connecting the ink cartridge 30 and the ink tank 7 to each other, and one end thereof is connected to the ink supply hole 8 and the other end thereof is connected to a lower portion of the ink tank 7. Also, the third connecting pipe 15
A third electromagnetic opening / closing valve 6 is disposed near the ink supply hole 8. The opening / closing of the third electromagnetic opening / closing valve 6 is controlled via a control unit 16 described later. Further, in the ink tank 7, ink 3 to be impregnated and held in the ink holding body 10 in the ink cartridge 30 is stored.

Next, a control device for performing ink injection control performed in the ink injection device A having the above structure will be described with reference to FIG. FIG. 4 shows an ink injection device A.
3 is a control block diagram showing the control system of FIG.

In FIG. 4, the control device basically comprises a control unit 16, and the control unit 16 has a cartridge detector 17 for detecting whether or not the ink cartridge 30 is mounted in the ink injection device A. A regulator 12 for measuring the pressure in the vacuum chamber 2, a vacuum pump 1 for reducing the pressure in the vacuum chamber 2, a first electromagnetic on-off valve control circuit 18 for opening and closing the first electromagnetic on-off valve 4, and a second Solenoid valve 5
Second solenoid on-off valve control circuit 19 that opens and closes the third solenoid on-off valve control circuit 20 that opens and closes the third solenoid on-off valve 6.
And a timer 20 for counting time are connected.

The control unit 16 controls the vacuum pump 1, the first electromagnetic opening / closing valve 4, the second electromagnetic opening / closing valve 5, the third electromagnetic opening / closing valve 6, etc. according to a control program described later. The control unit 16 includes a CPU, a ROM, and a RAM. The ROM stores various programs necessary for controlling the ink injecting apparatus A in addition to a control program described later, and the RAM is operated by the CPU. The operation result is temporarily stored.

The control unit 16 first closes the first electromagnetic on-off valve 4 and the third electromagnetic on-off valve 6, and opens the second electromagnetic on-off valve 5 to drive the vacuum pump 1 to depressurize the vacuum chamber 2. ,
When the pressure (vacuum degree) detected by the regulator 12 reaches a predetermined pressure (vacuum degree), the second electromagnetic opening / closing valve 5 is closed. Next, after detecting the ink cartridge 30 with the cartridge detector 17 and confirming that the ink cartridge 30 is attached to the ink injecting apparatus A, the first electromagnetic opening / closing valve 4 is opened to remove the air in the ink cartridge 30. The ink is discharged into the vacuum chamber 2 through the air vent hole 9 to reduce the pressure inside the ink cartridge 30. Further, the control unit 16 opens the third electromagnetic opening / closing valve 6 and starts the time counting by the timer 20 from the opening time point of the third electromagnetic opening / closing valve 6. Further, the control unit 1
6 closes the first electromagnetic opening / closing valve 4 and the third electromagnetic opening / closing valve 6 when a predetermined time is counted by the timer 20.
After this, the ink cartridge 30 filled with the ink 3
When the cartridge detector 17 detects that the ink has been removed from the ink injection device A, the ink injection control ends.

Next, the ink injection control operation performed by the controller 16 will be described with reference to FIG. FIG.
3 is a flowchart of an ink injection control program.

In FIG. 5, first, step (hereinafter, S
1), the first electromagnetic on-off valve 4 and the third electromagnetic on-off valve 6 are closed, and the second electromagnetic on-off valve 5 is opened. Next, the vacuum pump 1 is driven (S2).

Then, in S3, it is detected whether or not the vacuum degree of the vacuum chamber 2 has reached a predetermined vacuum degree. When the predetermined vacuum degree is not reached (S3: No), the operation of the vacuum pump 2 is continued until the predetermined vacuum degree is reached, while when the predetermined vacuum degree is reached (S3: Yes), the second electromagnetic The on-off valve 5 is closed and the vacuum pump 1 is stopped (S4).
Next, it is determined through the cartridge detector 17 whether the ink cartridge 30 is attached to the ink injection device A. When the attachment of the ink cartridge 30 is detected through the cartridge detector 17 (S5),
The first solenoid opening / closing valve 4 is opened in S6. As a result, the air in the ink cartridge 30 is discharged from the air vent hole 9 into the vacuum chamber 2 via the first connection pipe 14 and the like, and a reduced pressure state in which ink can be injected is obtained. In S7, which is performed simultaneously with S6, the third electromagnetic on-off valve 6 is opened.

At this point, both the first electromagnetic on-off valve 4 and the third electromagnetic on-off valve 6 are open. Therefore, when the third electromagnetic on-off valve 6 is opened, the inside of the ink tank 7 is in the third connection. The ink 3 in the ink tank 7 communicates with the ink cartridge 30 through the pipe 15 and flows into the ink cartridge 30 whose pressure is reduced. At this time, since the second electromagnetic opening / closing valve 5 is closed, the degree of vacuum inside the vacuum chamber 2 and the ink cartridge 30 decreases as the ink 3 is injected into the ink cartridge 30. If the volume and the degree of vacuum of the vacuum chamber 2 are appropriately selected, the degree of vacuum is high immediately after the start of injection, and at the end, the degree of vacuum can be lowered to such an extent that the ink 3 does not leak from the air vent hole 9. A predetermined amount of ink 3 can be accurately injected.

Further, in response to the opening of the third electromagnetic on-off valve 6, the timer 20 starts counting time (S8), and the timer 20 measures the opening time of the third electromagnetic on-off valve 6. In S9, it is determined by the timer 20 whether or not the predetermined time is timed. If the predetermined time is not timed (S9: No), the timekeeping operation is continued until the predetermined time is timed, while the predetermined time is kept. When the time is counted (S9: Yes), both the first electromagnetic on-off valve 4 and the third electromagnetic on-off valve 6 are closed (S10). As a result, more ink 3 than necessary flows out from the ink tank 7, and the vacuum chamber 2
Is prevented from flowing into. The timer 20 is reset when the first electromagnetic opening / closing valve 4 is closed.

After that, when it is detected that the ink cartridge 30 is detached from the injection device A through the cartridge detector 17 (S11), the ink injection control to the ink cartridge 30 ends.

As described above in detail, in the ink injecting apparatus A of this embodiment, the vacuum degree of the system including the vacuum chamber 2 and the ink cartridge 30 is lowered as the ink 3 is injected, so that the vacuum chamber is reduced. If the volume of 2 and the degree of vacuum are properly set, the ink will not leak into the vacuum chamber 2 after the ink 3 is injected. Therefore, extra ink is not consumed from the ink tank 7, and the efficiency of ink injection is high. By disposing such a vacuum chamber 2, not only can a precise amount of ink 3 be injected, but the life of the vacuum pump 1 can be extended.

At the same time that the pressure of the ink cartridge 30 is reduced, the ink cartridge 3 is removed from the ink cartridge 3 at the same time.
Since the ink 3 is supplied to the inside of the ink cartridge 0, the ink cartridge 30 can be decompressed and the ink can be injected into the ink cartridge 30 in two stages as compared with the conventional injection device. It is possible to remarkably shorten the time for injecting the ink into 30.

Further, in the ink injecting apparatus of this embodiment, since the whole structure can be simplified, the degree of vacuum by the vacuum pump 1 may be about 260 to 60 Torr, which allows the vacuum pump 1 to be downsized and the entire apparatus. The cost can be reduced.

The present invention is not limited to the above-mentioned embodiments, and it goes without saying that various improvements and modifications can be made without departing from the gist of the present invention. For example, in the above-described embodiment, the driving of the vacuum pump 2 and the opening / closing of the second electromagnetic opening / closing valve 5 for bringing the vacuum chamber 2 to a predetermined vacuum degree are performed based on the measurement result by the regulator 2. The time until the chamber 2 reaches a predetermined vacuum degree may be measured in advance, and the depressurizing operation of the vacuum chamber 2 may be controlled by a timer.

Further, in the above embodiment, the air vent hole 9 is provided in the ink cartridge lid 11 fitted to the other end side of the ink cartridge 30. It may be at a position other than the cartridge lid 11, for example, the ink cartridge 3
It may be formed on the side wall of the ink cartridge 30 within 10% of the length in the longitudinal direction of the ink holder 10 at the other end side of 0.

[0037]

As described above, according to the present invention, when the ink is injected into the ink cartridge for supplying the ink to the print head of the ink jet printer, the decompression of the vacuum chamber decompressed by the vacuum pump is used. By depressurizing the ink cartridge and at the same time injecting the ink from the ink tank into the ink cartridge, it is possible to shorten the time for injecting the ink into the ink cartridge and the ink does not leak from the air vent hole. Excess ink is not consumed from the ink tank, the efficiency of ink injection is high, and ink can be injected accurately. In addition, the device can be simplified and the cost can be reduced.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram schematically showing the overall configuration of an ink injection device that is an embodiment of the present invention.

FIG. 2 is a perspective view of an ink cartridge used in the ink injection device.

FIG. 3 is a side sectional view of an ink cartridge used in the ink injection device.

FIG. 4 is a control block diagram showing a control system of the ink injection device.

FIG. 5 is a flowchart showing an ink injection operation of the ink injection device.

[Explanation of symbols]

 1 Vacuum Pump 2 Vacuum Chamber 3 Ink 4 First Electromagnetic On / Off Valve 5 Second Electromagnetic On / Off Valve 7 Ink Tank 8 Ink Supply Hole 9 Air Venting Hole 10 Ink Holder 11 Ink Cartridge Lid 13 Second Connection Pipe 14 First Connection Pipe 15 Third connection pipe 16 Control unit 30 Ink cartridge

Claims (4)

[Claims] 1. When injecting ink into an ink cartridge for supplying ink to a print head of an ink jet printer, ink is injected from an ink tank into the ink cartridge by using decompression of a vacuum chamber communicating with a vacuum pump. A first step of driving the vacuum pump to bring only the vacuum chamber into a predetermined depressurized state in a state where the vacuum pump and the vacuum chamber are communicated with each other and the vacuum chamber and the ink cartridge are not communicated with each other; The vacuum pump and the vacuum chamber are not communicated with each other, the vacuum chamber and the ink cartridge are communicated with each other, the ink cartridge and the ink tank are communicated with each other, and the ink is decompressed from the ink chamber by decompression of the vacuum chamber. And a second step of injecting the ink into the ink cartridge. 2. In the second step, time is counted from the time when the ink cartridge and the ink tank communicate with each other,
The ink injection method according to claim 1, wherein communication between the ink cartridge and the ink tank is cut off when a predetermined time is reached. 3. An ink cartridge having an air vent hole on one end side and an ink supply hole on the other end side, a vacuum chamber connected to the air vent hole of the ink cartridge via a first connecting pipe, and the vacuum. A vacuum pump connected to the chamber via the second connection pipe and an ink tank connected to the ink supply hole of the ink cartridge via the third connection pipe, and the vacuum pump pumps ink in the ink tank. An ink injecting device for injecting into an ink cartridge, comprising: a first valve member disposed on the first connection pipe; a second valve member disposed on the second connection pipe; and a third connection pipe. A third valve member arranged, a drive control of the vacuum pump, and a control unit that controls opening and closing of the first valve member, the second valve member, and the third valve member, wherein the control unit is ,Before Closing the first valve member, opening the second valve member, by driving the vacuum pump, after the vacuum chamber to a predetermined vacuum state, and closing the second valve member, said first
An ink injecting device, wherein the valve member and the third valve member are opened, and ink is injected from an ink tank into an ink cartridge by decompressing a vacuum chamber. 4. A timer for counting the time from the time when the third valve member is opened, the control means comprising:
The ink injection device according to claim 3, wherein the first valve member is closed when the timer counts a predetermined time.