JPH0367632B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an ink jetting device and its operating method, and in particular, the ink used in this ink jetting device is a phase change type ink called hot melt ink. The present invention relates to an ink ejecting device and an operating method thereof.

[Prior art and problems] Phase change ink used in ink jetting devices,
That is, hot melt ink is essentially a solid at room temperature. When heated, this ink melts to a jettable consistency. This hot melt ink can be jetted from various devices.

When liquid ink is used, the ink is of course supplied in a liquid state. Typically, the ink is stored in some type of closed container prior to delivery to the ink ejector. When employing hot melt inks, a different solution is required to provide reliable ink supply and minimize human intervention. At the same time, it is undesirable to constantly heat all of the supplied hot melt ink, since heating the hot melt ink for too long will result in deterioration of the ink.

A time-thaw (melt-on-demand) mechanism that supplies ink to a reservoir carried by an ink ejector in the drawing head avoids prolonged heating and reduces ink degradation as a result of such heating. It is clear that this can also be avoided. The amount of ink that can be used in such a mechanism is limited by the amount of ink that can be loaded onto the imaging head.

SUMMARY OF THE INVENTION An object of the present invention is to provide a hot melt ink supply mechanism that minimizes ink handling by humans.

Another object of the present invention is to provide a hot melt ink supply mechanism that can reliably supply ink to an ink ejecting device.

Yet another object of the present invention is to minimize excessive heating and consequent ink degradation.

Another object of the present invention is to provide a hot melt ink supply mechanism that can supply a large amount of ink without requiring human intervention.

[Means of solution and action]

In view of these objects of the invention, the present invention provides a solid ink supply device disposed at a fixed position, and a reservoir movable relative to the solid ink supply device and having a liquid level detector. a scanning ink ejection head having at least one ink ejector; a position sensing device for detecting the position of the scanning ink ejection head; the solid ink supply device having a heater; a spring device that constantly presses the ink mass against the heater; and a heating control device that controls the operation of the heater, and the heating control device receives a signal from a liquid level detector that detects the liquid level of the reservoir. and a signal from the position detection device, the heater is operated only for a predetermined time.

The liquid level detector monitors the level of ink liquid in the reservoir, and sends a signal to notify that the liquid level has fallen below a predetermined position, as well as a position that detects the position of the scanning ink ejection head. The detection device inputs a signal to the heating control device to indicate that the head has reached the fixed position of the solid ink supply device, and the ink mass is in contact with the heater under the action of the spring device. The heater is operated only for a predetermined period of time to heat and melt the . Therefore, the necessary amount of ink liquid can be supplied to the reservoir only when necessary, and there is no need for extra heating, so that deterioration of the ink can be minimized.

〔Example〕

Referring to FIG. 1, the ink ejection device is indicated by arrow 1.
It is disclosed to include a head 10 mounted for movement along a scanning path indicated by 2 and 14. Head 10 includes an ink-jetting imaging mechanism that provides an array of ink ejectors having orifices 16. The head 10 is
It includes a box-shaped reservoir 18 with a reservoir 20 located at the back of the tank.

The reservoir 18 has a limited capacity, in other words, the reservoir 18 can store an amount of ink that is heated by a heater, not shown, for a reasonable amount of time for a reasonable printing speed. to ensure that the ink jetting device operates properly. However, ink capacity is limited.

In order to refill the reservoir 18 and therefore the reservoir 20 of the head 10, the head 10 is configured to be able to be moved into a refill position shown in phantom. In its reinjection position, head 10
is located below a supply of solid state ink that can undergo a phase change to a molten state upon heating. As shown, the dispenser includes a tubular container 22 with a heater 24 powered by electrical conductors 26,28. As shown in FIG. 1, the tank 20 includes a tubular container 2
When in close proximity to the ink supply in 2, it is properly positioned so that molten ink is allowed to flow into the reservoir 20 through the channel 30. Thus, the reservoir 18 within the head 10 is filled with ink.

Referring now to FIG. 2, tubular container 22 is shown surrounding a coiled spring 32 that abuts a fastener 34 that is secured to container 22 by screw 36. The other end of the spring 32 abuts a movable insert 38 that abuts one end of the solid state ink mass 40 . The other end of the ink blob 40 abuts a groove 42 juxtaposed with a heater 24 embedded in a heating plate 44 secured by screws 46 . Grooves 42 allow ink to flow into openings 50. Container 44 includes a thermistor 48 or other temperature sensing element.

As the temperature of heater 24 increases, the end of ink mass 40 that rests against plate 42 melts. Then,
The molten ink flows through channel 42 and into opening 50 in tubular container 22 . It is the flow from opening 50 that forms the molten ink flow 30 shown in FIG.

As also shown in FIG. 2, the container 22 includes apertures 52, 54 associated with a light source 56 and a photodetector 58. Sufficient amount of ink 40 is present and light source 5
If the light from 6 is blocked and no light is detected by the detector 58, the resulting signal from the detector will indicate that a suitable amount of ink 40 is present. However, if the amount of ink 40 is such that it cannot shut off the detector 58, the detector 58 will indicate that the ink supply is low. This point will be discussed in more detail below in connection with FIG.

Now, referring to FIG. 3, the heater control section 60
activates or deactivates the heater 24.
To control the temperature of heater 24, heater control 60 is responsive to signals from thermistor 48.

Preferably, heater 24 is capable of operating for a period of time when refilling of ink within reservoir 18 is required. This fixed length of time is controlled by a timer 62 that sends an input signal to the heater control 60. The important point, of course, is that if ink is needed in the reservoir 18, simply set the timer and start heating. This point is determined by a level sensing circuit 64 which receives an appropriate level indication signal from the reservoir. However, timer 62 may be set only if detector 58 indicates the presence of the proper amount of ink 40, as illustrated in FIG.

In the present invention, it is important that melting begins only when the head 10 is in the proper location below the tubular container 22. A position sensor 66 is provided for this purpose, which allows control of the heater when the head 10 is in the correct position.

While the preferred embodiments of the invention have been illustrated and described, it will be appreciated that other embodiments and modifications may be considered within the true spirit and scope of the invention as set forth in the claims. For example, it is possible to remove the heating plate 44 and utilize a solid ink dispenser containing a heater element extending the length of the ink. If such an ink supply is utilized, the ink advancing spring 32 can be removed. On the other hand, if a hot plate is used, it may be desirable to use means other than spring 32 to advance the ink. Also,
It may be desirable for the light sensing mechanism, including light source 56 and light detector 58, as well as heater vessel 44 to be separate from vessel 22. Furthermore, due to space considerations, the container 22 may be pivotable through 90 degrees.

〔Effect of the invention〕

As is clear from the above description, according to the present invention, in an ink ejecting device using hot melt ink, human handling is minimized, a reliable ink supply mechanism is provided, and additionally, unnecessary ink is used. An ink ejection device is provided that allows heating and consequent ink deterioration to be minimized.

[Brief explanation of drawings]

1 is a perspective view of an ink jetting device showing a preferred embodiment of the present invention, FIG. 2 is a sectional view of the ink supply device of FIG. 1, and FIG. 3 is a control device for the device shown in FIG. 1. block diagram. 10... Head, 16... Orifice, 18... Reservoir, 20... Tank, 22... Tubular container, 24... Heater,
30... Channel, 32... Coil spring, 40... Ink lump, 42... Groove, 44... Heating plate, 48... Thermistor, 50... Opening, 56... Light source, 58... Photo detector,
60... Heater control unit, 62... Timer, 64... Liquid level detection circuit, 66... Position detector.

Claims (1)

[Claims] 1 Scanning device having a solid ink supply device disposed in a fixed position, a reservoir movable relative to the solid ink supply device and having a liquid level sensor, and at least one ink ejector. a scanning ink ejecting head and a position detection device for detecting the position of the scanning ink ejecting head; the solid ink supply device includes a heater; and a spring device for constantly pressing the ink mass against the heater. and a heating control device that controls the operation of the heater, and the heating control device responds to a signal from a liquid level detector that detects the liquid level in the reservoir and a signal from the position detection device. An ink ejecting apparatus using hot melt ink, characterized in that the heater is operated only for a predetermined period of time.