KR200318767Y1 - Suction apparatus of inkjet printer - Google Patents

Abstract

The present invention relates to a suction device of an ink jet printer, the suction device of an ink jet printer capable of forcibly sucking ink through the nozzle and being discharged to the drain tank while the head assembly having the nozzle is fixed to the station. A cylinder having an inlet port in communication with the station and an outlet port in communication with the drain tank; A piston reciprocally installed in the cylinder to provide a pumping force for sucking ink through the suction port and discharging ink through the discharge port; And an actuator for reciprocating the piston.

Description

Suction apparatus of inkjet printer

The present invention relates to a suction device of an ink jet printer for forcibly discharging ink through a nozzle of a head assembly fixed to a station, and in particular, has a structure capable of providing a predetermined pumping force while the piston in the cylinder is reciprocated. A suction device for an inkjet printer.

BACKGROUND ART Generally, an inkjet printer is a printing apparatus which injects a predetermined ink onto a printing paper through a nozzle. The inkjet printer is a thermal method that heats ink and injects ink by thermal expansion of ink generated at this time, and piezoelectric characteristics. According to the pressure change according to the piezo (piezo) method for injecting the ink is classified. Among these, the piezoelectric inkjet printer includes a head assembly which receives ink from an ink tank by a pressure change according to piezoelectric characteristics and sprays the ink through a nozzle.

On the other hand, in such an inkjet printer, the nozzle of the head assembly is exposed to some extent in the air during printing, so that the ink deposited on the nozzle is solidified, so that the nozzle is often clogged. In order to prevent this, the inkjet printer is provided with a suction device for removing the solidified ink by forcibly discharging a certain amount of ink through the nozzle.

Conventional suction device is a station in which the head assembly is fixed at the beginning of printing or at the end of printing, a suction tube communicating with the station, a roller wheel rotated by a motor, and by interlocking with the roller wheel to selectively pressurize the suction tube And a suction roller for forcibly discharging a certain amount of ink through the nozzle. Therefore, the ink stored in the ink tank is forcibly discharged through the nozzle as the suction roller selectively presses the suction tube with the head assembly fixed to the station.

By the way, since the conventional suction device includes a roller wheel rotated by a drive motor and a suction roller interlocked by the roller wheel to selectively press the suction tube, the general structure for interlocking the suction roller is complicated. As a result, as the size of the apparatus increases, there is a problem in that the installation space of the printer main body cannot be efficiently used. In addition, the conventional suction device has a problem that the noise is generated due to the mechanical friction sound generated when the suction roller is interlocked. In addition, the conventional suction device is a suction operation is made by the direct pressurization of the suction roller against the suction tube, there is a problem that the suction tube is torn by the suction roller in case of long-term use, the entire device must be replaced frequently. In addition, the conventional suction device is a direct suction of the suction tube is a conventional suction device when the ink using a non-aqueous oil or solvent type solvent ink, when the ink is drained through the suction tube, when the ink and the suction tube The suction tube is deformed by a chemical reaction. As a result, the flow of ink is disturbed, so that a smooth suction operation is not performed. As a result, not only the printing efficiency of the printer is lowered, but also the entire apparatus is frequently replaced.

The present invention is conceived to improve the above problems, it is possible to utilize the installation space of the printer body more efficiently, the noise is not generated, and the piston in the cylinder is reciprocated to extend the life of the device so that the predetermined It is an object of the present invention to provide a suction device of an inkjet printer having a simple structure capable of providing a pumping force.

1 is a cross-sectional view schematically showing a suction device of an inkjet printer according to a preferred embodiment of the present invention.

Figure 2a and Figure 2b is a cross-sectional view for explaining the operation of the suction device of the ink jet printer according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10 ... head assembly 12 ... ink tank

13 ... Nozzle 20 ... Station

30 ... drain tank 40 ... cylinder

41 ... inlet 42 ... outlet

43 ... intake valve 44 ... outlet valve

45 ... suction line 46 ... discharge line

50 ... piston 60 ... actuator

61 ... Cam 62 ... Connection rod

63 ... drive motor

In order to achieve the above object, the present invention provides a suction device of an inkjet printer capable of forcibly sucking ink through a nozzle and discharging it into a drain tank while a head assembly having a nozzle is fixed to a station, wherein the station and A cylinder having a suction port selectively communicating with the outlet and a discharge port selectively communicating with the drain tank; A piston reciprocally installed in the cylinder to provide a pumping force for sucking ink through the suction port and discharging ink through the discharge port; And an actuator for reciprocating the piston.

In the suction device of the inkjet printer according to the present invention, the cylinder: to open the suction port by the suction force generated in the cylinder as the piston is reciprocated so that the suction port can be closed by the compression force generated in the cylinder A suction valve installed at the suction port; And a discharge valve installed at the outlet to close the outlet by suction force generated in the cylinder as the piston is reciprocated and open the outlet by the compression force generated in the cylinder.

In the suction device of an ink jet printer according to the present invention, the actuator includes: a cam connected to the piston and rotatably installed by a drive motor.

The suction device of the inkjet printer according to the present invention includes a suction line connected to the suction port and the station, and a discharge line connected to the discharge port and the drain tank; Preferably, the suction line and the discharge line are made of at least one material of silicon, teflon, viton, or stainless steel that is resistant to solvent ink.

The suction device of the inkjet printer according to the present invention as described above has a simple structure that can provide a predetermined pumping force while the piston in the cylinder reciprocates, unlike the prior art it is possible to miniaturize the device to efficiently save space in the printer body Not only can it be utilized, but also the mechanical noise can be significantly reduced.

Hereinafter, a suction device of an inkjet printer according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic cross-sectional view showing a suction device of an inkjet printer according to a preferred embodiment of the present invention.

1 and 2, the suction device 100 of the inkjet printer according to the present invention forcibly discharges ink through the nozzle 13 of the head assembly 10 fixed to the station 20 in the suction mode. To this end, the piston 50 in the cylinder 40 has a structure that can provide a predetermined pumping force while reciprocating.

The suction device 100 according to the present invention is an inkjet having a head assembly 10 for injecting a predetermined ink, for example, an aqueous ink, an oil or a solvent type solvent ink on the surface of a printing object by a pressure change according to piezoelectric characteristics. Applies to the printer. The inkjet printer includes a station 20 to which the head assembly 10 is fixed and removes ink sucked from the head assembly 10 to remove ink solidified at the ink ejection portion of the head assembly 10 at the beginning of printing and at the end of printing. It is provided with a drain tank 30 which can be stored.

The suction device 100 includes a cylinder 40 having an inlet port 41 selectively communicating with the station 20 and an outlet port 32 selectively communicating with the drain tank 30, and a reciprocating movement in the cylinder 40. The piston 50 provided so that it may be provided, and the actuator 60 for reciprocating the piston 50 are provided.

The head assembly 10 has a known structure that can be reciprocated by a carriage and guide rail not shown. The head assembly 10 includes a case 11, an ink tank 12 provided in the case 11 to store a predetermined amount of ink, and ink supplied from the ink tank 12 by a piezoelectric method to receive the ink. It is provided with a nozzle 13 for ejecting to the surface.

The station 20 has a space in which the head assembly 10 is fixed at the start and end of printing, and is installed outside the printing area of the printer body. The station 20 has a suction pad 21 in contact with the nozzle 13 when the head assembly 10 is fixed, and an outlet 22 through which the ink sucked from the nozzle 13 of the head assembly 10 can be discharged. Is prepared.

According to the present invention, the cylinder 40 is a cylindrical container of which the upper end is opened and the lower end is closed, and the suction port 41 and the drain tank 30 selectively communicate with the outlet port 22 of the station 20. A discharge port 42 communicating with is provided.

The suction port 41 is provided with a check valve type suction valve 43, and the discharge port 42 is also provided with a check valve type discharge valve 44. The suction valve 43 opens the suction port 41 when the ink stored in the ink tank 12 is sucked into the cylinder 40 through the nozzle 13 of the head assembly 10, and opens from the inside of the cylinder 40. It is provided with the conventional valve body which can close the discharge port 42 when ink is discharged. The discharge valve 44 closes the discharge port 42 when ink stored in the ink tank 12 is sucked into the cylinder 40 through the nozzle 13 of the head assembly 10, and closes the discharge port 42 from the inside of the cylinder 40. It is provided with the conventional valve body which can open the discharge port 42 when ink is discharged.

The suction port 41 is connected to the outlet 22 of the station 20 by the suction line 45, and the discharge port 42 is connected to the drain tank 30 by the discharge line 46. The suction line 45 and the discharge line 46 are tubular flow paths through which ink can flow, and particularly at least one of silicon, teflon, viton, or stainless steel, which does not cause a chemical reaction with a solvent ink such as a solvent. It is made of material.

The piston 50 is reciprocated while being in close contact with the inner wall of the cylinder 40, thereby providing a predetermined pumping force inside the cylinder 40. At least one piston ring 51 is installed on the outer circumferential surface of the piston 50 to maintain airtightness between the outer circumferential surface and the inner circumferential surface of the cylinder 40. When the piston 50 moves upward, a predetermined suction force is generated inside the cylinder 40, and when moved downward, a predetermined compression force is generated inside the cylinder 40. In addition, when the piston 50 is moved upward, the suction valve 43 opens the suction port 41 by the suction force, and the discharge valve 44 closes the discharge port 42. In addition, when the piston 50 is moved downward, the inlet valve 43 closes the inlet port 41 by the compression force, and the outlet valve 44 closes the outlet port 42. Therefore, when the piston 50 is moved upward, the ink stored in the ink tank 12 of the head assembly 10 is discharged through the nozzle 13 by the suction force, and the cylinder 40 along the suction line 45. Is sucked into. In addition, when the piston 50 is moved downward, the ink contained in the cylinder 40 by the compression force is discharged to the drain tank 30 along the discharge line 46.

The actuator 60 is for reciprocating the piston 50 up and down in the cylinder 40. The actuator 60 includes a cam 61 rotatably installed by the drive motor 63 and a connecting rod 62 provided between the cam 61 and the piston 50. One end of the connecting rod 62 is rotatably connected to the cam 61, and the other end is hinged to the piston 50. Thus, the piston 50 is interlocked by the connecting rod 62 as the cam 61 is rotated and continuously lifted in the cylinder 40. As an alternative, the piston 50 according to the present invention is not limited to being reciprocated upward and downward in the cylinder 40, and may be reciprocated in the left and right directions depending on the position of the cylinder 40. Of course.

The operation of the suction device of the inkjet printer according to the preferred embodiment of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

2A and 2B are cross-sectional views illustrating the operation of a suction device of an ink jet printer according to a preferred embodiment of the present invention.

As shown in FIG. 2A, at the beginning of printing and at the end of printing, the head assembly 10 is settled in the fixing space of the station 20. At this time, the nozzle 13 of the head assembly 10 naturally contacts the suction pad 21.

Subsequently, the drive motor 63 is operated. Then, the cam 61 is rotated by the drive of the drive motor 63. While the top dead center of the cam 61 reaches the point "A", the piston 50 is interlocked by the connecting rod 62 and raised along the inner wall of the cylinder 40. For this reason, a predetermined suction force is generated inside the cylinder 40.

At the same time, the suction valve 43 opens the suction port 41 by the suction force in the cylinder 40, and the discharge valve 44 closes the discharge port 42 by the suction force. In addition, the ink stored in the ink tank 12 of the head assembly 10 is forcibly sucked through the nozzle 13 by the suction force, and flows into the inner space of the cylinder 40 along the suction line 45. At this time, the suction force in the cylinder 40 is evenly distributed by the suction pad 21, so that the ink stored in the ink tank 21 is naturally discharged through the entire area of the nozzle 13. On the other hand, when the ink stored in the ink tank 21 is a solvent type solvent ink, since the suction line 45 is made of at least one material of silicon, Teflon, Viton, or stainless steel, chemical reaction with the solvent ink It does not cause it.

As shown in FIG. 2B, while the top dead center of the cam 61 reaches point "B", the piston 50 is interlocked by the connecting rod 62 and lowered along the inner wall of the cylinder 40. Then, a predetermined compressive force is generated inside the cylinder 40.

At the same time, the intake valve 43 closes the inlet port 41 by the compression force in the cylinder 40, and the outlet valve 44 opens the outlet port 42 by the compression force. In addition, the ink contained in the cylinder 40 is discharged through the discharge port 42 by the compression force in the cylinder 40 and flows into the drain tank 30 along the discharge line 46. In this case, when the ink is a solvent type solvent ink, since the discharge line 45 is made of at least one material of silicon, teflon, viton, or stainless steel, the ink does not cause chemical reaction with the ink.

As the ink stored in the ink tank 12 of the head assembly 10 is forcibly sucked through the nozzle 13 and drained to the drain tank 30 by such a repeating operation, the head assembly ( The ink solidified in the nozzle 13 of 10) can be removed cleanly.

As described above, the suction device of the inkjet printer according to the present invention has the following effects.

First, since the piston in the cylinder has a simple structure that can provide a predetermined pumping force as the reciprocating movement, it is possible to miniaturize the device unlike the prior art to efficiently utilize the space of the printer body, as well as mechanical friction sound remarkably Can be reduced.

Secondly, as in the prior art, since the suction rollers pressurize the suction tube, a closed end such as damage to the suction tube is excluded, and thus the life of the apparatus can be further extended.

Third, unlike the prior art, even if a non-aqueous oil or solvent type solvent ink is used, since the smooth suction operation is performed, the ink is compatible, and ultimately, the printing efficiency of the printer is improved.

Claims (4)

A suction device of an inkjet printer capable of forcibly sucking ink and discharging it into a drain tank through the nozzle while the head assembly having the nozzle is fixed to the station, A cylinder having a suction port selectively communicating with the station, and a discharge port selectively communicating with the drain tank; A piston reciprocally installed in the cylinder to provide a pumping force for sucking ink through the suction port and discharging ink through the discharge port; And And an actuator for reciprocating the piston. The method of claim 1, The cylinder is: A suction valve installed at the suction port to open the suction port by the suction force generated in the cylinder as the piston is reciprocated and to close the suction port by the compression force generated in the cylinder; And And a discharge valve installed at the discharge port so as to close the discharge port by suction force generated in the cylinder as the piston is reciprocated and open the discharge port by the compression force generated in the cylinder. Suction device. The method of claim 1, The actuator is: And a cam connected to the piston, the cam being rotatably installed by a drive motor. The method according to claim 1 or 2, A suction line connected to the suction port and the station, and a discharge line connected to the discharge port and the drain tank; The suction line and the discharge line of the suction device of the inkjet printer, characterized in that made of at least one material of silicon, Teflon, Viton or stainless resistant to solvent ink.