CN1191939C

CN1191939C - A capping mechanism for a print engine

Info

Publication number: CN1191939C
Application number: CNB008197008A
Authority: CN
Inventors: 卡·西尔弗布鲁克; 托比·艾伦·金; 盖瑞·罗蒙德·杰克逊
Original assignee: Silverbrook Research Pty Ltd
Current assignee: Memjet Technology Ltd
Priority date: 2000-06-30
Filing date: 2000-06-30
Publication date: 2005-03-09
Anticipated expiration: 2020-06-30
Also published as: ATE359179T1; AU2004203193B2; EP1301348A1; EP1301348B1; JP4434578B2; CN1454151A; ZA200210019B; IL153725A0; AU2000253733B2; DE60034376D1; AU2004203193A1; IL153725A; EP1301348A4; JP2004504967A; AU2000253733A1

Abstract

The present invention relates to a top cover mechanism for a printing engine, which comprises a top cover component (592) arranged on the same straight line with a printing head arranged on the printing engine, the top cover component (592) is detachable and movable, and the component can be in butt joint with and be separated from the printing head to respectively close and open the cover. A torsion bar device (728) which acts on the top cover component (592) can change the position of the top cover component (592), and a mechanical movable component (570) is in matched work with the torsion bar device. When the mechanical movable component (570) is in a parking position, the mechanical movable component (570) is engaged with the torsion bar device, so the top cover component (592) is in butt joint with the printing head in order that a cover of the printing head is closed; when the mechanical movable component (570) is not in a parking position thereof, the torsion bar device pushes the top cover component (592) through a plate spring (734) in order that the top cover component (592) is separated from the printing head. The mechanical movable component (570) pushed out of a push cut device (566) separates printed paper sheets.

Description

A kind of top cover mechanism that is used for print engine

Technical field

The present invention relates to a kind of print engine, the present invention is applied to have on the digital camera of instant printing function especially, or rather, the present invention relates to a kind of be used for the top cover mechanism of print engine.

Background technology

The profile of digital camera is compact more good more, carry being convenient to, one of method of dwindling digital camera appearance and size is to dwindle the volume of power supply, people know, the power supply of digital camera is a battery pack normally, by the volume (for example reducing the quantity of battery) that reduces battery pack the profile of camera is diminished.

For reaching this purpose, preferably that power consumption on the digital camera is big parts remove, and exactly, are exactly print engine.

Summary of the invention

The present invention relates to a kind of top cover mechanism that is used for printer, this top cover mechanism comprises:

Can point-blank cover device be installed with the printhead of printer for one, this cover device can with the printhead adjacency with separate, to realize closing lid and uncapping of printhead respectively;

One acts on the thrust unit that cover device is shifted one's position cover device;

The movable part of a machinery, these parts and thrust unit cooperating when these parts are in stop position, with the thrust unit engagement, promote cover device and dock with printhead, and the lid that closes of finishing printhead moves.When these parts were not in stop position, thrust unit promotes cover device made it separate with printhead.

Printhead is preferably selected page width printing head for use, and a rib shape flange of being made by elastomeric material is arranged on the cover device, and when cover device was in the He Gai position, this flange was used for docking with printhead." page width " is meant that printhead once prints delegation on print media, and at print media during through printhead, printhead does not laterally slide or rasterisation on print media.

This flange can be arranged on the carrier, and this carrier can move its position by thrust unit.

Have an elongate articles and a bias unit that is mounted on the carrier on the thrust unit, the effect of bias unit is to promote elongate articles, cover device is shifted onto the position of uncapping.

This elongate articles can be a torsion bar device, and every end has an arm.

The movable part of this mechanism is a device that plays dissection, and for example a break bar when printer is finished an image printing on the print media after, cuts print media with it.This cutter sweep can move on the direction parallel with printhead, and can have an engagement device on the cutter sweep, is used for being connected with an arm of torsion bar device.When cutter sweep is positioned at its stop position, promote this arm and can make offset assembly produce action, enter the Qi Hegai position to drive top cover mechanism.

Engagement device can be a cam member that is installed on the cutter sweep.Or rather, break bar can be contained on the installing rack that is driven by worm gear, passes across printhead during use.Can have a cam member on this installing rack, so, when installing rack is pushed into its stop position, the arm engagement of cam member and torsion bar device produces the torsion bar device and moves, thereby promotes bias unit, so just can promote top cover mechanism, it is engaged with printhead.

Description of drawings

The present invention will be described below in conjunction with example and accompanying drawing:

Fig. 1 is the 3-D view of the print engine of drafting according to the present invention, comprises its assembly;

Fig. 2 is the three-dimensional, exploded view of print engine;

Fig. 3 is to use the 3-D view of the print engine of detachable print cartridge, among the figure print engine has been removed;

Fig. 4 is the three dimensional back view of print engine, and print cartridge wherein is represented by dotted lines;

Fig. 5 is the three-dimensional section view of print engine;

Fig. 6 is the three-dimensional, exploded view of printhead subassembly on the print engine;

Fig. 7 is the partial sectional view of printhead subassembly;

Fig. 8 is the cross-sectional end view of printhead subassembly, and the caping mechanism among the figure is positioned at the caping position;

What Fig. 9 showed is the printhead subassembly, and the caping mechanism among the figure is positioned at the position of uncapping;

Figure 10 is the three-dimensional, exploded view of printhead subassembly that shows the details of top cover mechanism;

Figure 11 is the schematic three dimensional views of the top cover mechanism of top cover mechanism when being positioned at the He Gai position;

Figure 12 is a top cover mechanism when being positioned at the He Gai position, the partial 3 d vertical view of printhead subassembly;

Figure 13 is that top cover mechanism is positioned at when uncapping the position, the partial 3 d vertical view of printhead subassembly;

Figure 14 is a top cover mechanism when being positioned at the He Gai position, the partial 3 d upward view of printhead subassembly;

Figure 15 is that top cover mechanism is positioned at when uncapping the position, the partial 3 d upward view of printhead subassembly;

The specific embodiment

In drawing, Reference numeral 500 typically refers to print engine according to the invention, and print engine 500 has a print engine assembly 502, and a dismountable print cartridge 504 wherein is housed.

In the print cartridge 504 consumptive material is housed, for example print media and various ink.In being called the patent family application of " print cartridge " (number of putting on record CA02) and " ink cartridge " (number of putting on record CA04), the name of our bulletin describes this print cartridge 504 in detail, above-mentioned two patents are applied for simultaneously, its international patent application no is respectively PCT/AU00/00741 and PCT/AU00/00742, here specially in conjunction with its content to do reference.

Have one first subassembly 506 and one second subassembly 508 on the print engine assembly 502.

A chassis 510 is arranged on the subassembly 506, and there is one first molded item 512 on chassis 510, and ink supply pipe 514 is arranged on it.Ink in the print cartridge 504 is sent into printhead 516 (Fig. 5,6,7) on the printhead subassembly 508 via ink supply pipe 514.Printhead 516 can with the ink printed of four kinds of colors also can with the ink of three kinds of colors add the 4th kind only under infrared spectrum visible ink (hereinafter referred to as infrared ink) print.Correspondingly, just need precast 4 ink supply pipes 514 and an air supply pipe 518 on molded item 512, air blows to printhead 516 by air supply pipe 518, piles up on the nozzle guard of printhead 516 to prevent extraneous particle.

Also have another lid shape molded item 520 on the chassis 510, a pump 522 is housed on it.Pump 522 is aspiration pumps, produces suction by this pump, make air pass through air admission hole tubule 524 and air admission hole 526 after, via the air cleaner in the print cartridge 504.Air is discharged by venthole 528, offers the air supply pipe 518 on the chassis 510.

First drive motors also is housed on the chassis 510, and this motor is a stepper motor 530, comes driving pump 522 by first train 532.This stepper motor 530 also links to each other by the active roller 534 (Fig. 5) in the roll wheel assembly 536 on second train 538 and the print cartridge 504.Engageable parts 540 (Fig. 2) engagement on train 538 and the end that is contained in active roller 534, thereby make stepper motor 530 can control the feeding of in the printhead 516 of subassembly 508, carrying print media 542, thereby realize when medium when printhead passes through for 516 times, print image in the above.Be noted that when on print media 542, printing 530 of stepper motors are responsible for driving

print media

542, and 522 of pumps are responsible for blowing to printhead 516.

On the molded item 512 on the chassis 510 a plurality of Pipe for supplying ink are installed, the i.e. tubule 544 that communicates with ink supply pipe 514, in the middle of the flange assembly 546 that ink supply tubule 544 is made with the elasticity measurement material on the print cartridge 504, be used for from the inking chamber of print cartridge 504 or storage lattice 548 (Fig. 5) extraction ink to offer printhead 516.

Be supported with one second motor 550 by clamp 552 on the lid shape molded item 520 on chassis 510, this motor 550 is a direct current generator.This motor 550 is used for driving cutter sweep---break bar arm component 554, finish image after the printing on the print media, and itself and remaining print media are cut.Have a helical gear 556 on the output shaft of motor 550, helical gear 558 engagements that have on the worm gear 560 of helical gear 556 and break bar assembly 554.Worm gear 560 is contained on the chassis base plate 564 of printhead subassembly 508 by bearing 562, can rotate.

Break bar assembly 554 has a break bar 566, and this break bar is installed on the soft arm 568 of elasticity of installing rack 570.Worm gear 560 from the process of installing rack 570 other processes is: when worm gear 560 rotated, installing rack 570 and break bar 566 laterally passed through from chassis base plate 564.Installing rack 570 sticks together with the lid 572 of base plate 564, rotates with respect to worm gear 560 to stop installing rack 570.And break bar 566 is close to the upper casing or the cover of printhead subassembly 508, with effective cutting print media 542.Cover 574 is metals, thereby works as break bar 566 from covering the shape parts through out-of-date, forms an action that is similar to scissors, and the print media of stamping image is cut with remainder.

Subassembly 506 has an injection equipment 576, injection equipment 576 be contained on the chassis 510 and above the flange 578 of a Band clamp 580 is arranged, by this flange 578 injection equipment 576 is clipped on the chassis 510, stick together with it.A plug-in unit 582 of being made by the elasticity measurement material is equipped with at flange 578 places, has reserved a plurality of openings 584 on the plug-in unit, and the hole of advancing on the tubule 544 is sealed, and enters into tubule 544 with the particle that stops the outside, and enters thus in pipe 514 and the printhead 516.Face or platform 586 that these outer plugin 582 surfaces form are blocked air inlet tubule 524, play sealing process same as described above.

A helical spring 588 is housed between chassis 510 and the flange 578, in Figure 10, can be clear that at Fig. 3: when print cartridge 504 when print engine 500 is pulled down, this helical spring 588 with flange 578 shift onto one with chassis 510 position spaced.Injection equipment shown in Fig. 4 is in the position of packing up.

Mention above: printhead subassembly 508 has a base plate 564, and the caping mechanism 590 that is contained on the base plate 564 is transportable, can shift to or move apart printhead 516.Have an elongated rib shape flange 592 in the caping mechanism 590, be arranged on the carrier 593, carrier 593 is installed in place on the moving mechanism 594, and when printhead 516 was not worked, this displacement mechanism moved rib shape flange 592, docks with printhead 516 with it.Conversely, when printhead 516 work, this displacement mechanism produces action, makes rib shape flange 592 retractions, thereby separates with printhead 516.

Have a printhead support molded item 596 on the printhead subassembly 508, above printhead 516 just is installed in.Rib shape flange 599 on this molded item 596 and the molded item 596 has formed a passage 598, and when print image on print media, print media passes through from here.A groove 700 is arranged on the molded item 596, and when caping mechanism 590 was in its caping position, caping mechanism 590 was stretched by groove 700 places.

Ink feed arrangement 702 is installed on the plug-in unit 599, be positioned at cover 574 below.Have crestal surface shape parts 704 on the ink feed arrangement 702, and a foundry goods 706 is housed on parts 704, formed an ink feeding pod 708 between ridged parts 704 and the foundry goods 706, this pod communicates with ink supply pipe 514 on the chassis 510, and (Fig. 7) is sent to printhead 516 to ink via here.

An air supply pipe 711 (Fig. 8) is arranged on the ridged part 704 on printhead 516 next doors.

The signal of telecommunication connects diaphragm 712 automatically via tape and is sent to printhead 516, and tape connects diaphragm 712 automatically and is placed between plug-in unit 599 and the ink feed arrangement 702.

Having 714, one flexible printed circuit boards of angled wing-like part (PCB) 716 on the molded item 596 is mounted and fixed on the wing-like part 714.Rib shape flange 718 on the plug-in unit 599 promotes flexible printed circuit board 716 and is connected diaphragm 712 contacts automatically with tape, makes both conductings.Winding displacement 720 is housed on the flexible printed circuit board 716, is used for powering to other live part of printhead 516 and print engine 500.In addition, have a camera print engine control chip 721 and a quality control chip (not shown) on the flexible printed circuit board 716, the quality control chip can be discerned the compatibility and the applicability of print cartridge 504 and print engine 500.For this reason, have a contact 723 on the printed circuit board (PCB) 716, engage with contact 725 in the print cartridge 504.

Can be clear that from Fig. 7: printhead itself has a nozzle guard 722, is installed on the silicon wafer 724.Ink offers the nozzle battle array (not shown) of printhead 516 via ink supply member 726.When needing ink supply, the outlet on the ink channel 710 of ink supply member 726 and ink feed arrangement 702 is connected, and ink is sent to the nozzle battle array of printhead 516.

Refer now to Figure 10, describe the displacement mechanism 594 of top cover mechanism 590 among Figure 10 in detail.Displacement mechanism 594 comprise a torsion bar device 728, this torsion bar device is made of a bar 730 and a pair of arm 732, the two ends of bar 730 respectively stretch out one with bar 730 rectangular arms 732.One end of displacement mechanism has a bias unit that is made of sheet spring 734, can more be clear that in Figure 14 and Figure 15: sheet spring 734 is by stretching out on the member 736 and fixed thereon, and member 736 is parts of molded item 596.Equally, can see clearly by the utmost point in Figure 14 and Figure 15: the bar 730 usefulness clips 738 of torsion bar device are hung on the carrier 593 of top cover mechanism 590.Also as can be seen: carrier 593 itself hangs fixing with clip 742, can slide with respect to molded item 596.

The free end of the arm 732 of torsion bar device 728 places opening 740 places on the base plate 564, so just torsion bar device 728 is positioned at metal base plate 564 corresponding positions on.

A cam member or a cam type surface that has inclined-plane 746 is housed on the installing rack 570 of break bar assembly 554, when the installing rack 570 of break bar assembly 554 when its stop position moves, as shown in figure 11, an arm 732 on the torsion bar device 728 places cam type surface 744 places, supporting sheet spring 748 and upwards boosted, the rib shape flange 592 that so just promotes top cover mechanism 590 docks with printhead 516.

Conversely, when the needs printhead prints, installing rack 570 is moved toward the direction (Figure 11) of arrow 748, so that the arm 732 of torsion bar device 728 shifts out cam type surface 744.Then sheet spring 734 acts on the bar 730 of torsion bar device, and the rib shape flange 592 that promotes in the top cover mechanism 590 makes it break away from printhead 516.So just can make the slit 598 of print media 542 below printhead to print.

Clearly, the operation of displacement mechanism 594 is mechanical fully, so it does not consume entrained power supply on the camera that uses print engine 500.

Equally also as can be seen: for the profile that makes print engine 500 is compacter, most of parts of print engine assembly 502 are all placed in the groove of print cartridge 504 1 ends, make its size littler.

Skilled in the art will recognize that: do not deviating under the preceding topic of marrow of the present invention and protection domain, can carry out various changes and/or modification the embodiment that provides.Which thereby, all should only be considered as the current enforcement that provides illustrative and non-limiting no matter from aspect.

Claims

1, a kind of top cover mechanism that is used for print engine, this mechanism comprises:

One with in alignment dismountable, removable of the printhead of print engine, when with printhead in abutting connection with when separate, realize the cover device that covers and uncap that closes of printhead;

One acts on the cover device, the thrust unit that the cover device position is changed;

One with the thrust unit cooperating, when being in stop position,, it docked with printhead and making printhead close lid with thrust unit engagement, mobile cover device; When not being in stop position, promote cover device, the mechanical movable part that it is separated with printhead.

2, top cover as claimed in claim 1 mechanism is characterized in that printhead is a page width printing head, and cover device has one to be made by elastomeric material, when cover device is positioned at the He Gai position, and the rib shape flange that abuts in printhead.

3, top cover as claimed in claim 2 mechanism is characterized in that rib shape flange is contained on the carrier.

4, top cover as claimed in claim 3 mechanism is characterized in that thrust unit acts on carrier.

5, top cover as claimed in claim 4 mechanism is characterized in that, has one on the thrust unit and is mounted on elongate articles on the carrier and one and acts on and make the thrust unit biasing on the elongate articles, cover device is shifted onto the bias unit of the position of uncapping.

6, top cover as claimed in claim 5 mechanism is characterized in that elongate articles is a torsion bar device, and every end of torsion bar has an arm.

7, top cover as claimed in claim 6 mechanism, it is characterized in that, the machinery movable part is the cutter sweep of a cutting print media, print engine is after printing on the print media is finished, by cutter sweep it is scaled off, this cutter sweep can move on the direction parallel with printhead, and cutter sweep has a geared assembly, when cutter sweep is in its stop position, an arm engagement of this geared assembly and torsion bar device, make bias unit produce action by promoting this arm, top cover mechanism is pushed its He Gai position.

8. top cover as claimed in claim 7 mechanism is characterized in that geared assembly is the cam pack of a device on cutter sweep.