JPH04185450A - Cleaning device for ink jet printer - Google Patents

Abstract

PURPOSE:To eliminate re-adhesion of ink and alien substances to a nozzle by providing a cleaning roller made of foamed body that touches against the nozzle of an ink jet head. CONSTITUTION:As a carriage body 6 is moved to the nozzle cleaning position, a nozzle plate 5 of a head 4 comes in contact with a cleaning roller 1 and then the cleaning roller 1 starts the rolling over the surface of the nozzle plate 5. With the contact kept in the state as mentioned above, the carriage 6 is moved several times in reciprocation in the directions indicated with arrows A, and thereby alien substances such as paper dusts are removed while the ink adherent to the surface of the nozzle plate 5 is absorbed. The cleaning roller 1 is made of elastic foamed body, and is made capable of sticking fast constantly in stability to the nozzle plate 5 even though the amount of overlapping between the head 4 and the nozzle plate 5 varies. Therefore the ink is absorbed while the alien substances over the surface of the nozzle plate are collected with cells, each of which is in small diameter and is strong in capillary attraction because of being compressed as the roller is pressed against the nozzle plate 5.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an inkjet printer, and particularly to an inkjet head cleaning device.

[Prior Art] In conventional inkjet printers, a wiper blade made of a fixed rubber member has been proposed as disclosed in US Pat. No. 4,853,717 shown in FIG.

[Problems and Objectives to be Solved by the Invention] However, in the above-mentioned conventional technology, excess ink on the nozzle surface is removed by passing the nozzle surface of an inkjet head mounted on a carriage through a rubber wiper blade installed on a fixed frame member. cleaning of foreign substances. Therefore, the next cleaning operation is performed without removing the ink and foreign matter adhering to the wiper blade, so there is a possibility that the ink and foreign matter transferred to the wiper blade will re-adhere to the nozzle surface. SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a cleaning device that does not cause ink or foreign matter to re-adhere from a cleaning member such as a wiper blade to a nozzle during the cleaning operation of an inkjet head.

[Means for Solving the Problems] The present invention has been made to solve the above-mentioned problems of the prior art, and provides a cleaning roller made of a cylindrical foam mounted on a fixed frame in a serial printing type inkjet printer. The cleaning roller is characterized in that it is provided with a wiper 7 blade that comes into contact with the cleaning roller, and that the cleaning roller is installed in a region where an inkjet head mounted on a carriage passes.

[Function] According to the above structure of the present invention, by providing the foam cleaning roller that comes into contact with the nozzle of the ink sheet head, the capillary force generated in the cells of the foam that is the material of the cleaning roller can be utilized. It is possible to remove foreign substances such as paper dust while absorbing ink from the nozzle. In other words, a cleaning device with a high ability to capture foreign matter can be realized. In addition, the wiper blade that is in pressure contact with the cleaning roller constantly scrapes off foreign matter and excess ink adhering to the surface of the cleaning roller, so the nozzles can always be cleaned with a clean surface of the cleaning roller. Ink re-adhesion can be prevented.

Therefore, an inkjet printer cleaning device that has a high cleaning effect and does not cause cleaning failures can be provided.

[Embodiment] FIG. 1 is a plan view of an embodiment of the present invention, FIG. 2 is a front view, and FIG. 3 is an explanatory diagram of the operation.

FIG. 4 is a detailed view. In the figure, 1 is a cleaning roller made of open-cell foam. Cleaning roller 1
is press-fitted into the sleeve 2 to prevent slippage. The sleeve 2 is rotatably mounted on a shaft 3 erected on a fixed frame 14 . The cleaning roller 1 is made of foamed NBR with a rubber hardness of 40 degrees and a density of 0.33.
However, the present invention is not limited to this, and open-cell foams such as urethane foam that have appropriate elasticity and excellent water absorption can also be used. In the figure, reference numeral 12 denotes a rubber wiper 7 blade for scraping off excess ink and foreign matter adhering to the cleaning roller 1, and is in constant contact with the cleaning roller. The amount of overlap between the wiper blade 12 and the cleaning roller is greater than the amount of overlap between the cleaning roller and the inkjet head 4 (hereinafter referred to as head 4).

The head 4 has a nozzle plate 5, which is an ink outlet, bonded to the surface facing the platen 13.

In the figure, reference numeral 6 denotes a carriage body on which the head 4 and the ink cartridge 17 are mounted, which is guided by a guide shaft 7 and a fixed frame 14, and is driven by a carriage drive motor 0 provided at the right end of the fixed frame 14. A carriage drive motor 0 has a drive pulley 9 and an encoder 11 arranged coaxially. The rotation of the drive pulley 9 is transmitted to the carriage body 6 by the drive belt 8, and therefore the rotation of the carriage drive motor 0 is converted into a reciprocating motion of the carriage body 6. In the figure, 15 is a cap means for the head 4, which is made of butyl rubber with low gas permeability, and a suction pump 16 for clogging the head and recovering the meniscus.
is provided behind it.

The cleaning roller 1 is provided between the cap means 15 and the platen 13 which is a printing area. The outer diameter of the cleaning roller 1 is set so as to overlap the locus of the reciprocating movement of the outer circumferential portion of the cover 4 in the direction of the printed digits, and when the head 4 moves from the cap means 15 toward the platen 13. (and vice versa), the nozzle plate 5 is in contact with the cleaning roller 1, and is configured to pass while rotating the cleaning roller 1.Next, the operation of this embodiment will be explained with reference to FIG. 1.

When a cleaning operation of the head 4 is commanded by a control system (not shown), the control circuit causes the cap means 15 to be retracted from the nozzle plate 5 of the head 4 by a driving means (not shown), and the movement of the carriage body 6 in the printing digit direction is controlled. It becomes possible. The carriage drive motor 10 starts rotating in response to a signal from the control circuit, and the rotation is converted into a reciprocating motion of the carriage body 6 via a carriage drive pulley 9 and a drive belt 8.

Since the home position of the carriage body 6 is detected by a comparison means (not shown), the signal of the rotary encoder 11 corresponding to the detected position is stored as the home position. The rotation amount of carriage drive motor 0 is encoder 1.
1, the moving distance of the carriage body 6 from the home position controller is calculated by the rotary encoder 11.
Recognition and positioning are possible by the generated pulses.

When the carriage body 6 is moved from FIG. 1 to the nozzle cleaning position (hereinafter referred to as the cleaning position) shown in FIG.
and the cleaning roller make contact. The cleaning roller then rolls on the surface of the nozzle plate 5. In this state, the carriage body 6 is moved back and forth several times as shown by arrow A to absorb ink adhering to the surface of the nozzle plate 5 and remove foreign matter such as paper dust.

As described above, the cleaning roller is made of elastic foam and always remains in stable contact with the nozzle plate 5 even if the amount of overlap between the head 4 and the nozzle plate 5 varies. Therefore, even if the platen gap changes somewhat due to changes in the thickness of the recording paper, good contact between the nozzle plate 5 and the cleaning roller can always be obtained, and the cleaning effect can be maintained. Also, as shown in Figure 4,
The cells in the area where the cleaning roller is in contact with the nozzle plate 5 are more compressed than in the non-contact area.

As the head 4 moves, the compression position moves and the size of the cells also changes sequentially. First, ink is absorbed while collecting foreign matter on the nozzle surface using small diameter cells with large capillary force which are in a compressed state by coming into contact with the nozzle plate 5.

Next, ink and foreign matter on the cleaning roller are collected, and when the six parts are separated from the nozzle plate 5, the cells are released from the compressed state and return to a free state. Therefore, the diameter of the cell increases, and the amount of ink that can be impregnated increases. In other words, since the amount of ink that can be impregnated into each cell of the cleaning roller changes sequentially, a bombing effect by the cells occurs and efficient ink absorption becomes possible.

Wiper blade 1 in contact with the cleaning roller
2, as described above, the amount of overlap with the cleaning roller 1 is greater than the amount of overlap with the nozzle plate 5. Therefore, when the cleaning roller 1 passes the wiper blade 12, the cells of the ink absorbed on the surface of the nozzle plate 50 are compressed and squeezed out again. (In other words, a decrease in pore volume = ink discharge due to a decrease in the amount of ink that can be held) In addition, foreign matter such as paper dust adhering to the surface of the cleaning roller 1, together with the squeezed ink,
2, the cleaning roller 1 can be cleaned.

[Effects of the Invention] According to the present invention, by providing a foam cleaning roller that comes into contact with the nozzles of the inkjet head as a cleaning member for the inkjet head, the capillary force generated in the cells of the foam that is the material of the cleaning roller can be reduced. It becomes possible to remove foreign substances such as paper powder while absorbing ink from the nozzle. The wiper blade 7, which is in pressure contact with the cleaning roller, constantly scrapes off foreign matter and excess ink on the surface of the cleaning roller, so the nozzle can always be in contact with the MM surface of the cleaning roller, preventing foreign matter and ink from re-adhering. It can be prevented. Therefore,
The cleaning effect of the nozzle is improved and good printing quality can be obtained.

[Brief explanation of drawings]

FIG. 1 is a plan view of this embodiment. FIG. 2 is a front view of this embodiment. FIG. 3 is an explanatory diagram of the operation of this embodiment. Figure 4 is a detailed diagram. FIG. 5 is a sectional view showing a conventional example. 1...Cleaning roller 4... Inkjet head 12... wiper blade that's all Applicant: Seiko Epson Corporation Representative Patent Attorney Kizobe Suzuki and 1 other person Figure 1 11?

Claims (1)

[Claims] In serial printing type inkjet printers,
An inkjet printer comprising a cleaning roller made of a cylindrical foam on a fixed frame, and a wiper blade that comes into contact with the cleaning roller, and the cleaning roller is installed in an area where an inkjet head mounted on a carriage passes. jet printer cleaning device.