JP4779265B2 - Ink filling method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method of filling an ink cartridge such as an ink supply cartridge of an ink jet printer with ink, and more particularly, not only a new ink cartridge containing a porous body that holds and absorbs ink but also ink remains. The present invention relates to an ink filling method capable of filling ink even in a used used cartridge.
[Prior art]
[0002]
Since ink for an ink jet printer is liquid, the ink supply cartridge is required to have characteristics such that the ink does not spill and is easy to handle, and that hands and clothes are not soiled when the cartridge is replaced. As a cartridge that satisfies these requirements, an ink cartridge incorporating a porous body that absorbs and holds ink has been proposed and used.
[0003]
In order to absorb ink into the porous body, it is necessary to replace the air and the ink held by the porous body. As such a method, for example, (1) the porous body is compressed in advance. , A method of absorbing ink when opened, (2) a method of pressurizing ink and injecting it into the cartridge, and (3) a method of injecting ink after removing air from the porous body in the cartridge under reduced pressure. Has been.
[0004]
Japanese Patent Laid-Open No. 3-227656 discloses a method for filling the ink by depressurizing the cartridge, and injecting the ink after sucking the air in the ink cartridge having the ink absorbing member made of foam and making it vacuum. A method has been proposed. In this method, an ink injection device is used in which a pipe connected to a vacuum pump through a three-way switching valve is connected to the first connection port of the ink cartridge, and ink is supplied from the ink tank through the second pipe of the ink cartridge. It has been.
[0005]
[Problems to be solved by the invention]
In order to fill an ink cartridge containing a porous body that absorbs and holds ink with ink under reduced pressure, it is necessary to replace the air and the ink held by the porous body. The above method has an advantage that the ink filling efficiency is high because the ink is injected after the air in the foam is removed. However, since the piping from the vacuum pump is directly connected to the cartridge, in the used cartridge in which the ink remains in the cartridge, when the pressure is reduced, the ink overflows out of the cartridge together with the air in the porous body. The ink is sucked into the vacuum pump along with the air. For this reason, this method has a problem that it cannot be applied to a used cartridge.
Further, in this method, in order to increase the filling efficiency, it is necessary to completely remove the air in the foam before filling the ink.
[0006]
If the ink is injected under a condition with a high degree of vacuum, a filling device capable of realizing a high vacuum is required although the replacement with the air in the ink cartridge can be performed smoothly. Further, in order to fill only the inside of the cartridge with a vacuum, a cartridge having a strength capable of withstanding the pressure difference is required. Furthermore, ink filling under high vacuum is particularly noticeable when ink is used in a used cartridge in which ink remains, but boiling or bubbling of the ink in the cartridge cannot be avoided, and these may overflow from the ink cartridge. The possibility of being sucked into the vacuum pump during decompression was great.
[0007]
On the other hand, if the decompression condition is relaxed, it is possible to prevent the ink from boiling and bubbling, but the replacement of the air held by the porous body with the ink becomes insufficient, so that the ink filling is incomplete.
[0008]
Furthermore, in the conventional method, in order to sequentially deaerate the ink cartridge and fill the ink, a dedicated pipe for each is provided, or if a single pipe is used, a plurality of switching valves are provided. The sequential switching operation must be performed, and the structure of the filling apparatus and the operation of the apparatus are complicated.
[0009]
The problem to be solved by the present invention is that the ink is effectively absorbed and retained in the porous body not only when filling a new cartridge but also when refilling a used cartridge in which ink remains in the cartridge. Another object of the present invention is to provide a simple ink filling method that can be used.
[0010]
[Means for Solving the Problems]
The inventors paid attention to the fact that a porous body under reduced pressure absorbs ink most efficiently when returning to normal pressure, and provided an ink tank that can accommodate overflowing ink and ink to be filled. Further, after the pressure of the ink cartridge connected thereto is reduced, the ink tank is returned to the normal pressure, and a differential pressure is generated between the ink tank and the ink cartridge. The method of absorption was found and the present invention was completed.
[0011]
That is, the present invention solves the above-described problems,
1. Ink filling method into an ink cartridge containing a porous body that absorbs and holds ink, wherein an ink tank containing ink filled in a filling port of the ink cartridge is directly connected, and the inside of the ink tank is depressurized, thereby Ink filling characterized by reducing the pressure inside the ink cartridge and then returning the pressure inside the ink tank to normal pressure, creating a differential pressure between the ink cartridge and the ink tank, and filling the ink cartridge with ink. Method.
I will provide a.
[0012]
Moreover, in order to solve the above problems, the present invention
2. In the ink filling method, the ink tank and the entire ink cartridge are depressurized in a pressure-resistant container, and then the pressure-resistant container is returned to normal pressure, thereby generating a differential pressure between the ink cartridge and the ink tank. An ink filling method is provided.
[0013]
Furthermore, in order to solve the above problems, the present invention
3. Rather than putting the decompression of the ink tank and the ink cartridge into a pressure-resistant container to decompress the entire system, the ink tank and the ink cartridge are placed under normal pressure, and only the inside of the ink tank and the ink cartridge is decompressed. 2. The ink filling method according to 1 above.
[0014]
In the filling method of the present invention, the ink directly connected to the ink tank is not directly sucked from the filling port of the ink cartridge by a vacuum pump, but directly connected to the filling port and the pressure in the ink tank is reduced. Since the pressure in the cartridge is reduced, the ink tank functions as a buffer tank, and the residual ink in the cartridge is not directly sucked into the vacuum pump. Even if the ink boils during filling, the ink tank serves as a buffer, so that the ink cartridge does not overflow.
[0015]
In addition, since it is only necessary to fill the ink tank with the amount of ink to be filled in advance and fill it into a cartridge directly connected to the tank, switching between gas and liquid flow paths between the ink cartridge and the ink tank, There is no need to install a special valve for adjusting the filling amount. In the filling method of the present invention, the filling ink put in the ink tank works like an air check valve, and the air in the ink cartridge passes to the ink tank side, but the air from the ink tank side enters the ink cartridge. Prevent entry. For this reason, when the inside of the ink tank is returned to normal pressure, the pressure in the ink cartridge temporarily becomes lower than that in the ink tank, resulting in a differential pressure, and the ink enters the ink cartridge prior to the air by this differential pressure. Enter. Since the ink is injected before the air, the ink can be efficiently absorbed into the porous body from which the air has been removed by the reduced pressure.
[0016]
As a method for depressurizing the ink cartridge by depressurizing the ink tank, there is a method of depressurizing the entire ink tank and the ink cartridge in the pressure resistant container while maintaining the positional relationship. In this case, the ink tank must be open and communicate with the space in the pressure-resistant container to be decompressed, and the ink cartridge is decompressed through the ink tank. Further, the ink in the tank is filled into the cartridge directly connected by the pressure difference between the ink tank and the ink cartridge generated when the pressure vessel is returned to normal pressure. Therefore, no valve or switching valve is required for the ink tank, the ink cartridge, and their connecting portion.
[0017]
Furthermore, the ink tank and the ink cartridge can be placed under normal pressure, and only the inside of the ink tank and the ink cartridge can be decompressed. In this case, the ink tank is a closed system and does not communicate with the outside air, and it is necessary to have a suction port for suction by a vacuum pump. After depressurizing the ink cartridge through the ink tank, the ink tank is returned to normal pressure, and the ink in the ink tank set in advance is filled into the cartridge by utilizing the differential pressure between the tank and the cartridge. For this reason, the ink tank, the ink cartridge, and the connection portion thereof do not require a switching valve for controlling the air or ink flow path.
[0018]
In any of the above-described methods, it is sufficient that the ink cartridge has one filling port directly connected to the ink tank. In addition to the filling port, a suction port for decompression is unnecessary.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
The ink tank of the present invention is an ink container for filling an ink cartridge, and at the same time, serves as a buffer for ink overflowing from the ink cartridge during decompression. The ink tank is directly connected to the filling port of the ink cartridge. However, in the case of a filling method in which the pressure of the ink tank and the entire ink cartridge is reduced in the pressure-resistant container, the structure is an open system having a communication port to outside air other than the filling hole. In the case of the filling method in which the ink cartridge is sucked from the ink tank and the inside of the ink cartridge is depressurized, a sealed structure having a suction port for suction by a vacuum pump is used in addition to the filling hole.
In order to smoothly fill the ink from the ink tank, the ink tank is preferably installed on the upper part of the cartridge, and the inlet at the bottom of the tank is preferably directly connected to the filling hole formed in the upper cover of the ink cartridge. By adopting such an arrangement, the ink in the ink tank is effectively filled into the ink cartridge by the differential pressure and gravity.
[0020]
In the filling method of the present invention, since air in the ink cartridge passes through the ink in the ink tank, air is blown into the ink, and foaming is unavoidable. Since the degree of foaming at this time varies depending on various conditions, it cannot be decided unconditionally. The capacity of the ink tank of the present invention must be selected as appropriate in consideration of the ease of foaming of the ink to be filled, whether the ink cartridge to be filled is new or used, and the degree of pressure reduction when filling. .
[0021]
The ink filling port of the present invention points to the port connecting the outside and the inside of the cartridge, and its position and shape are not particularly specified. Further, the number of the mouths may be one or more, and when there are a plurality of mouths, a mouth at a position that is easy to use in terms of structure may be appropriately determined as the ink filling opening. In this case, it is necessary to block the other mouth with a stopper or tape.
[0022]
When the ink tank and the entire ink cartridge are decompressed in a pressure-resistant container and filled with ink, the ink tank and the ink cartridge are placed in a pressure-resistant decompression container such as a vacuum chamber, and the decompression container is a vacuum pump through a three-way valve. Connect to. The three-way valve is an open valve for returning the inside of the decompression vessel to atmospheric pressure. What is necessary is just to determine the pressure in a pressure reduction container suitably.
[0023]
The ink tank and ink cartridge are installed under normal pressure, and when the ink cartridge is depressurized and filled with ink by suction from the ink tank, the connection between the ink tank and the ink cartridge does not leak air And shall be. The ink tank has a sealed structure with a suction port at the top, and the suction port is connected to a vacuum pump via a three-way valve. The three-way valve is an air release valve for returning the inside of the cartridge to normal pressure. What is necessary is just to determine the pressure at the time of filling suitably.
[0024]
The whole amount of ink to be filled in the ink tank is put in, the pressure in the vacuum chamber or the ink tank is reduced, and the air in the ink cartridge is deaerated. At this time, since the air in the cartridge passes through the ink in the ink tank, the ink in the ink tank bubbles. After reaching the specified pressure, operating the three-way valve to return the inside of the vacuum chamber or ink tank to normal pressure causes the ink in the ink tank to flow into the decompressed ink cartridge prior to the air. The ink is efficiently absorbed and filling is completed.
[0025]
Further, in the filling method of the present invention, it is possible to re-deaerate the ink cartridge once filled by repeating the operation of reducing the pressure and releasing to the atmosphere. An example of a filling method in which only the ink tank and the ink cartridge are decompressed will be described. After the filling operation is completed once, the inside of the ink tank is decompressed again without putting ink into the ink tank. At this time, a part of the ink previously filled from the ink cartridge overflows to the ink tank side together with the air in the cartridge. Thereafter, the overflowed ink functions like a check valve, and the ink overflowed before the air flows into the ink cartridge when returning to the normal pressure in the ink tank.
[0026]
Re-deaeration is particularly effective in filling in a low vacuum with a relatively low degree of vacuum. In the filling with low vacuum, the air held by the porous body tends to be insufficiently degassed, and the entire amount of ink that can be filled cannot be filled by a single filling operation. In this case, it is possible to absorb and hold the entire amount of ink in the porous body by repeating the re-deaeration operation. Thus, by performing the filling accompanying re-deaeration, it is possible to compensate for the drawback that the deaeration of the air in the porous body due to the low vacuum tends to be insufficient.
[0027]
Such re-deaeration can be similarly used in the above-described method using a pressure-resistant decompression vessel.
[0028]
【Example】
Next, the present invention will be described more specifically with reference to examples and comparative examples. The present invention is not limited to these examples.
[0029]
Example 1
The ink was filled into a commercially available ink cartridge IC1BK04 (manufactured by Seiko Epson Corporation) using the filling apparatus shown in FIG. The cartridge was a used cartridge that had been used up until the ink was empty, and the required amount of ink to be filled was extracted from the new cartridge.
[0030]
The ink supply port to the printer on the lower surface of the cartridge is sealed, the label on the upper surface is peeled off, the ink tank is attached to the central port among the two ports, and the other port is sealed and placed in the vacuum chamber. The capacity of the ink tank was 200 ml, and 30 ml of ink was filled.
[0031]
The pressure in the chamber was 120 hPa, and after holding for several seconds, the three-way valve was opened to return the chamber to normal pressure. When the inside of the chamber was returned to normal pressure, the ink in the ink tank was completely filled into the porous body in the cartridge.
[0032]
When the filled cartridge was mounted on EM-900C (manufactured by Seiko Epson Corporation) and printing was performed, good printing was possible without missing dots.
[0033]
(Example 2)
The ink was filled into a commercially available ink cartridge IC1BK04 (manufactured by Seiko Epson Corporation) using the filling device shown in FIG. The cartridge was a used cartridge that had been used up until the ink was empty, and the required amount of ink to be filled was extracted from the new cartridge.
[0034]
The ink supply port to the printer on the lower surface of the cartridge was sealed, the label on the upper surface was peeled off, the ink tank was attached to the central port, and the other port was sealed. The capacity of the ink tank was 400 ml, and 30 ml of ink was filled.
[0035]
The inside of the ink cartridge was degassed and reduced in pressure through the ink tank, the pressure in the ink tank was set to 120 hPa, and after maintaining for several seconds, the three-way valve was opened to return the inside of the ink tank to normal pressure. When the inside of the ink cartridge was returned to normal pressure, the entire amount of ink in the ink tank was filled into the porous body in the cartridge.
[0036]
When the filled cartridge was mounted on EM-900C (manufactured by Seiko Epson Corporation) and printing was performed, good printing was possible without missing dots.
[0037]
(Example 3)
In the same manner as in Example 1, the ink cartridge and the ink tank were installed in the vacuum chamber, the pressure in the chamber was set to 500 hPa, the pressure was maintained for several seconds, the three-way valve was opened, and the inside of the chamber was returned to normal pressure. When the inside of the chamber was returned to normal pressure, the ink in the ink tank was not completely filled into the porous body in the cartridge, and part of the ink remained in the ink tank. When the decompression and release to the atmosphere were repeated three times, the entire amount of ink in the ink tank was absorbed by the porous body in the ink cartridge.
[0038]
When the filled cartridge was mounted on EM-900C (manufactured by Seiko Epson Corporation) and printing was performed, good printing was possible without missing dots.
[0039]
【The invention's effect】
In the ink filling method of the present invention, not only filling a new cartridge but also refilling a used cartridge in which ink remains in the cartridge, the residual ink is not sucked into the vacuum pump. Can be effectively absorbed and held in the porous body in the ink cartridge. Further, it is sufficient that the ink cartridge has one filling port, and no special suction port for degassing is necessary. In addition, the filling device has a very simple structure, has few switching valves, and is easy to operate.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of an apparatus used in Examples 1 and 3 for decompressing an ink cartridge and an ink tank in a pressure-resistant container.
FIG. 2 is a conceptual diagram of an apparatus used in Example 2 in which an ink cartridge and an ink tank are placed under normal pressure and pressure is reduced by suction from the ink tank.
[Explanation of symbols]
1 Ink cartridge 2 Ink tank 3 Vacuum gauge 4 Vacuum pump 5 Three-way valve 6 Vacuum chamber

Claims (3)

A method of filling ink into an ink cartridge including a porous body that absorbs and holds ink, the ink being installed at the top of the ink cartridge in a filling port formed in the upper lid of the ink cartridge and containing the ink to be filled The inlet of the bottom of the ink tank is directly connected, and the inside of the ink tank is decompressed to decompress the inside of the ink cartridge, and then the inside of the ink tank is returned to normal pressure, and the ink cartridge and the ink tank are An ink filling method, wherein a differential pressure is generated between the ink cartridges to fill the ink with ink. The ink tank is an open system, and a pressure difference is generated between the ink cartridge and the ink tank by reducing the pressure of the ink tank and the entire ink cartridge in the pressure container and then returning the pressure container to normal pressure. The ink filling method according to claim 1, wherein the ink is filled. The ink tank has a sealed structure with a suction port connected to a vacuum pump at an upper portion, the ink tank and the ink cartridge are placed under normal pressure, and only the inside of the ink tank and the ink cartridge is decompressed. The ink filling method as described.

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