This application claims the priority benefit of Taiwan application serial no. 92104890, filed on Mar. 07, 2003.
1. Field of Invention
The present invention relates to a service station. More particularly, the present invention relates to the service station that cleans and seals the print head of a print module in a printing system (an inject printer) and converts the movement of the print module into driving force.
2. Description of Related Art
Following the rapid development of home computers and related peripheral products, different types of computer peripheral products have been developed to meet the demands of various users. The two major electronic products for outputting computer data are displays and printers. Many types of printers are currently available including, for example, laser printers, inkjet printers and thermal printers. Since inkjet printers are smaller and cheaper relative to the other types of printers, they have become one of the most popular printers.
The inkjet printing technique relies on applying a momentary pressure to the ink inside an ink reservoir or heating the ink to produce a thermal bubble in pressure so that ink is ejected from the ink nozzle. The ejected ink forms spherical droplets that attach to the surface of a print document. Hence, by controlling the action of each ink nozzle through controlling the inkjet chip as well as the horizontal movement of the print head and the vertical movement of the print document, ink droplets are guided to fall on the desired print surface location, thereby forming a sheet of text or graph.
In general, the colorful dots on the page of a printed document are defined by mixing three complementary dyestuffs including cyan, magenta and yellow (CMY) together in suitable proportions. Since mixing cyan, magenta and yellow dyestuffs together cannot produce the color black, most color printers have an independent chip for processing black color. In other words, a color printer must incorporate a color subtraction module with color dyes including cyan, magenta, yellow and black.
In general, most inkjet printing systems also incorporate a service station for cleaning and sealing the nozzles on the print head of a print module after each printing job. The service station normally includes a wiper. Some service station may additionally include a sealing cap. The wiper is used once in a while to remove the accumulated ink (residual ink) and dirt from the area around the ink nozzles of the print head. The sealing cap seals off the nozzles when the print head is not in use so that the ink within the nozzles is prevented from drying up and hence blocking the nozzles.
The conventional service station uses the rotary action of a stepping motor and the linear motion of the print module which is to print ink on plain paper or the like to clean the nozzles and seal the print head. However, it is simpler and costs less to drive the service station using the linear motion of the print module because no electric motor and associated control circuits required in the present invention.
Accordingly, one object of the present invention is to provide a service station of an inkjet print head driven by the linear motion of a print module so that the cost of the service station can be reduced.
To achieve these and other advantages and in accordance with the purpose of the invention, as embodied and broadly described herein, the invention provides a service station for cleaning and sealing the print head of a print module in a printing system. The service station comprises a base, a first direction-changing mechanism, a first moving mechanism, at least a wiper, a second direction-changing mechanism, a second moving mechanism and at least a cap. The first direction-changing mechanism is set up on the base. The first moving mechanism is also set up on the base and coupled to the first direction-changing mechanism. The wiper is set up on the first moving mechanism. The print module drives the first direction-changing mechanism and hence moves the wiper attached to the first moving mechanism across the nozzles on the print head and clears away any dry ink on the nozzles. In addition, the second direction-changing mechanism is set up on the base. The second moving mechanism is also set up on the base and coupled to the second direction-changing mechanism. The cap is set up on the second moving mechanism. The print module drives the second direction-changing mechanism and hence moves the cap attached to the second moving mechanism to seal off the print head.
According to the embodiment of this invention, the first direction-changing mechanism in the service station furthermore comprises a gear, a rod and a bumper plate. The gear is connected onto the base. One end of the rod is connected to the gear while the other end of the rod is connected to the bumper plate. The bumper plate is located at a position on the traveling pathway of the print head and can be driven by the print module. When the bumper plate rotates, the rod also rotates and hence turns the gear as well.
According to the embodiment of this invention, the base in the service station also has a groove. The first moving mechanism furthermore comprises a wiping base, a sliding track and a gear rack. The wiper is set up on the wiping base. The sliding track and the gear rack are set up below the wiping base. The sliding track is flush onto the groove in the base. The gear rack is coupled to the gear in the first direction-changing mechanism. Furthermore, the wiping base will move when the gear rack is driven by the gear.
According to the embodiment of this invention, the angle between direction of movement of the print module and the direction of movement of the wiper is greater than 70° or equal to about 70°.
According to the embodiment of this invention, the second direction-changing mechanism in the service station furthermore comprises a gear, a rod and a bumper plate. The gear is connected onto the base. One end of the rod is connected to the gear while the other end of the rod is connected to the bumper plate. The bumper plate is located at a position on the traveling pathway of the print head and can be driven by the print module. When the bumper plate rotates, the rod also rotates and hence turns the gear as well.
According to the embodiment of this invention, the base in the service station also has another groove. The second moving mechanism furthermore comprises a capping base, a sliding track and a gear rack. The cap is set up on the capping base. The sliding track and the gear rack are set up on the side of the capping base. The sliding track is flush onto the groove in the base. The gear rack is coupled to the gear in the second direction-changing mechanism. Furthermore, the capping base will move when the gear rack is driven by the gear.
It is to be understood that both the foregoing general description and the following detailed description are exemplary, and are intended to provide further explanation of the invention as claimed.
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
Reference will now be made in detail to the present preferred embodiments of the invention, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers are used in the drawings and the description to refer to the same or like parts.
As shown in
In
Similarly, the second direction-changing mechanism comprises a gear 242, a rod 244 and a bumper plate 246. The gear 242 is connected to the base 202. One end of the rod 244 is connected to the gear 242 in an axial position and the other end of the rod 244 is connected to the bumper plate 246. A supporter 272 supports the rod 244 so that the rod 244 is prevented from tilting and bending. The bumper plate 246 of the second direction-changing mechanism is located on the traveling pathway of the print module. Hence, the print module will contact and then move the bumper plate 246 on the second direction-changing mechanism, after the print module has carried out the ink scraping action, so that the bumper plate 246 rotates clockwise along the X-Z plane. Therefore, the rod 244 linked to the bumper plate 246 rotates and drives the gear 242 into rotation.
The second moving mechanism comprises a capping base 252, a pair of sliding tracks 254a, 254b (not shown) and a gear rack 256. The capping bag 252 is set up on the bass 202. The capping base 252 has a pair of capping surfaces 258a, 258b each having a cap 262a, 262b. The two sliding tracks 254a, 254b (not shown) are set up on the respective side surface of the capping base 252 and engage with the grooves 204c, 204d respectively on the base 202. The gear rack 256 is attached to the side surface of the capping base 252 and coupled with the gear 242 of the second direction-changing mechanism. Thus, the gear 242 will drive the gear rack 256 and hence lift the capping base 252 upwards In the Z-direction when the gear 242 of the second direction-changing mechanism is Indirectly driven by the movement of the print module. Eventually, the caps 262a, 262b will cap the print head of the print module and maintain the nozzles at a high relative humidity. The print module is now In a stopping mode. Note that the caps 262a, 262b move along the direction of movement of the capping base 252 (the Z-axis). Therefore, the angle between the direction of movement of the cap 262a (or the cap 262b) and the direction of movement of the print module (the X-axis) is greater than or equal to 70°, and the preferred angle is approximately 90°.
In summary, the service station according to this station utilizes a direction-changing mechanism to convert the linear motion of the print module into rotary action. Thereafter, a moving mechanism is employed to convert the rotary action back to a linear action for driving the wipers and caps. In other words, the linear motion of the print module is used to drive the wipers for removing dried ink on the print head and the caps for sealing the print head of the print module. Since the service station is not powered by a stepping motor, overall production cost can be reduced because there is no need to install additional stepping motor and its associated control circuits.
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents.
Number | Date | Country | Kind |
---|---|---|---|
92104890 A | Mar 2003 | TW | national |
Number | Name | Date | Kind |
---|---|---|---|
5663751 | Holbrook | Sep 1997 | A |
Number | Date | Country |
---|---|---|
408207293 | Aug 1996 | JP |
Number | Date | Country | |
---|---|---|---|
20040174410 A1 | Sep 2004 | US |