JPH07304189A - Recording device and hot melt ink to be used therefor - Google Patents

Abstract

PURPOSE:To provide a recording device having functions to improve productive efficiency and prevent mixture of hot melt ink, and a hot melt ink to be used for it. CONSTITUTION:When a quantity of a hot melt ink in an ink tank 17 becomes smaller than a predetermined quantity, a light emitting lamp 7 equipped at an ink melting chamber 13 emits light having a predetermined wavelength. Then, fluorescent dye 1 in an ink nugget 5 used as a source of hot melt ink which is inserted into the ink melting chamber 13 emit fluorescence and a light receiving element 9 detects the light and sends a signal to a control device 21. When the signal is correct, a melting chamber heating device 11 is actuated so as to heat and melt the ink nugget 5 for a predetermined quantity. When the signal from the light receiving element 9 is not correct, the melting chamber heating device 11 is not actuated and an output device 23 indicates an abnormality for an operator.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a recording apparatus and hot melt ink used therein.

[0002]

2. Description of the Related Art Generally, hot melt ink is solid at room temperature, and therefore, it must be melted by heating to be a liquid in order to be used as an ink for an image forming apparatus. Therefore, the solid hot-melt ink, which is a solid material for supplying the hot-melt ink, is inserted into an ink melting portion in an image forming apparatus, for example, an inkjet printer, and is heated in the ink melting portion to melt and become a liquid. The hot melt ink that has become the liquid is supplied to the ejection port.

Here, when forming a color image,
A plurality of hot melt inks of different colors are required, and an ink melting portion is formed for each color so that hot melt inks of different colors are not mixed. However, since there are a plurality of ink melting portions, it is necessary to prevent erroneous supply of different solid hot melt inks to the ink melting portions.

In order to solve this problem, conventionally, the combination of the shape of the solid ink and the shape of the opening of the ink melting portion is specified for each color,
The solid ink was prevented from being supplied to the ink melting portion from other than the specific solid ink.

[0005]

However, in the method for preventing the incorrect insertion of the solid ink by combining the shape of the solid ink and the shape of the opening of the ink melting portion, the solid ink shape and the ink melting portion are different for each color. Since the combination with the shape of the opening has to be changed, there are problems such as an increase in molds and non-common parts, and production efficiency is poor.

Further, when solid ink smaller than the opening of the ink melting portion exists, it can be supplied to the ink melting portion, the print quality is deteriorated due to the mixing of the hot melt ink, and the ink is not ejected from the image forming apparatus. There was also a problem that it might lead to the problem of.

The present invention has been made in order to solve the above-mentioned problems, and a recording apparatus capable of improving the production efficiency and preventing the mixing of the hot melt ink and the hot melt used therefor. It is intended to provide ink.

[0008]

In order to achieve this object, the recording apparatus of the present invention described in claim 1 uses a hot melt ink which is solid at room temperature and becomes liquid when heated to room temperature or higher. In the recording device, a light emitting section that emits a predetermined light to the hot melt ink, and a light receiving section for detecting the light emitted by the fluorescent dye contained in the hot melt ink by the light emitted from the light emitting section. And a control unit that controls the operation of the device based on the output of the light receiving unit.

Further, the hot melt ink of the present invention according to claim 3 is characterized in that it contains or holds a fluorescent dye which emits light upon receiving the light emitted from the light emitting portion.

[0010]

In the recording apparatus of the present invention having the above structure and the hot-melt ink used therein, the light-emitting portion is predetermined for the hot-melt ink containing or holding the fluorescent substance inserted in the ink melting section of the recording apparatus. The fluorescent dye emits fluorescence by emitting the above-mentioned light. The light receiving section detects the fluorescence, and the control means controls the operation of the device based on the output from the light receiving section.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic diagram of an ink supply section of a recording apparatus embodying the present invention. The hot melt ink used in the recording apparatus of this embodiment is solid at room temperature,
Further, it has a property of melting at a predetermined temperature higher than room temperature. Usually, the hot melt ink (hereinafter referred to as ink) is supplied to the recording device by the solid-state ink nugget 5, and the ink nugget 5 contains or holds the fluorescent dye 1.

The ink melting chamber 13 as an ink melting portion of the present invention for holding and melting the ink nugget 5 is provided with light for raising and emitting the fluorescent dye 1.
Specifically, a light-emitting lamp 7 as a light-emitting unit that emits light having a wavelength of 300 nm to 400 nm, and the fluorescent dye 1
And a light-receiving element 9 as a light-receiving portion for detecting the light emitted by rising and a melting chamber heating as a heating means for heating the ink nugget 5 to a temperature of room temperature or higher to change it from a solid state to a liquid state. The apparatus 11 and a melting chamber temperature detecting device 15 that detects the temperature inside the ink melting chamber 13 are provided.

An ink tank 17 for holding the ink in a liquid state is provided below the ink melting chamber 13, and a bottom portion of the ink tank 17 is for supplying the ink to an ink ejection port (not shown). An ink flow path 19 as an ink supply path is connected.

A control device 21 as a control means of the present invention, which comprises a well-known microprocessor for controlling this recording device, is provided with an output device 23 capable of giving an alarm to an operator when necessary.

Further, the ink tank 17 has a tank heating device 25 for heating the inside to a temperature of room temperature or higher,
A tank temperature detecting device 27 for detecting the temperature in the ink tank 17, an upper limit detecting device 29 and a lower limit detecting device 31 for detecting the ink amount in the ink tank 17, are provided. , Is electrically connected to the control device 21.

Further, the light emitting lamp 7, the light receiving element 9 and the melting chamber temperature detecting device 1 provided in the ink melting chamber 13 are provided.
5 and the melting chamber heating device 11 are electrically connected to the control device 21.

The fluorescent dye 1 is preferably colorless under visible light. Here, colorless under visible light means
It refers to a material that does not affect the color of the ink under visible light, and even if it is colored, it does not substantially affect the color of the ink.

Examples of the fluorescent dye 1 include anthracene, chrysene, pyrene, triphenylene, and 1,2-
Organic compounds such as condensed ring hydrocarbons such as benzpyrene and trinaphthylene and derivatives thereof, and derivatives of heterocyclic compounds such as thiazole, oxazole, viridine, benzoxazole, benzoxazine, flavone, coumarin, xylinone and acridine. Alternatively, a metal complex such as an oxine metal complex, particularly a complex of cadmium, magnesium, manganese, zinc, samarium, a thenoyltrifluoroacetoneuropiu complex, a benzoyltrifluoroacetoneuropiu complex and derivatives thereof, or ZnS: Cu, ZnS : Mn, ZnCdS: Ag,
_{Zn 3 (PO 4) 2:} Mn, Zn 2 SiO 4: Mn, Zn 2 S
_{iO 4: Mn, Zn 2 SiO} 4: Mn, As (Zn, C
d): Ag, (Zn, Cd) S: Cu, Cd ₂ O ₂ S: T
b, La ₂ O ₂ S: Tb, La ₂ O ₂ S: Eu, Y ₂ O ₃ : E
u, Y ₂ O ₂ S: Eu, Y ₂ O ₂ S: Tb, YVO ₄ : T
b, BaSi ₂ O ₅ : Pb, CaSiO ₃ : Mn, Pb,
Examples thereof include Y ₂ SiO: Ce, Tb, CaWO ₄ : SE (SE: rare earth element) and the like.

The ink can be obtained by containing 50 to 98% by weight of wax, 1 to 50% by weight of resin, and 1 to 5% by weight of dye or / and pigment. The ratio of the fluorescent dye 1 varies depending on the intensity of the fluorescence, the sensitivity of the light receiving element 9 and the like, and is not limited to this.

Ink formulation Candelilla wax 90% by weight Ethylene vinyl acetate copolymer 7% by weight Carbon black 2% by weight Coumarin derivative 1% by weight As a method for producing the ink of the examples, these are added according to the above composition, if necessary. The viscosity may be adjusted by appropriately combining a solvent for softening, or a dispersant, and preferably adjusting the compounding ratio of these. Then, when preparing the ink, it is preferable to improve the compatibility and dispersibility by kneading with a disperser such as a roll mill, a sand grinder, a ball mill and an attritor.

The issuing lamp 7 is a light which emits light containing ultraviolet rays, for example, a black light, an ultraviolet ray lamp,
A xenon lamp, a halogen lamp, a mercury lamp, etc. are used. If necessary, unnecessary light may be removed by using, for example, an interference filter, a sharp cutoff filter, colored glass, a plastic filter or the like.

As the light receiving element 9, for example, a photodiode, a phototransistor, a CCD element or the like is used.

As the melting chamber heating device 11 and the tank heating device 25, for example, a silicon rubber heater which is a planar heating element is used.

As the melting chamber temperature detecting device 15 and the tank temperature detecting device 27, for example, a thermistor or the like is used.

The operation of the thus constructed device will be described with reference to FIGS. 1 and 2.

First, when ink is consumed with the printing operation of the recording apparatus, and when the control apparatus 21 detects by the lower limit detection apparatus 33 that the amount of ink in the ink tank 17 is small (S1: NO), the light emitting lamp 7 provided in the ink melting chamber 13 emits light including ultraviolet rays under the control of the control device 21 (S2). At this time, if the normal ink nugget 5 is held in the ink melting chamber 13, the fluorescent dye 1 contained in the ink nugget 5 rises and emits fluorescence.

Next, the fluorescence is detected by the light receiving element 9, and the detection signal is sent to the control device 21. At this time, if the control device 21 determines that the detection signal is correct (S
3: YES), the control device 21 starts energizing the melting chamber heating device 11 and detects the temperature in the ink melting chamber 13 via the melting chamber temperature detecting device 15 to detect the ink in the ink melting chamber 13. The nugget 5 is heated to a predetermined temperature above room temperature and melted (S4).

The heated liquid ink flows into the ink tank 17 from the ink melting chamber 13, and the amount of ink in the ink tank 17 increases. As a result, when the upper limit detector 31 provided in the ink tank 17 detects the upper limit of the ink amount in the ink tank 17 (S5:
If YES, the power supply to the melting chamber heating device 11 is stopped (S6).

When the abnormal ink nugget is held in the ink melting chamber 13, the abnormal ink nugget does not emit fluorescence due to the light including the ultraviolet rays emitted from the light emitting lamp 7. The light receiving element 9 does not detect fluorescent light. When the control device 21 determines that the normal ink nugget 5 is not held based on the detection signal sent from the light receiving element 9 (S3:
No), the melting chamber heating device 11 is not energized, and the output device 23 warns the operator that there is an abnormality (S7). Further, the recording device stops the printing operation due to the shortage of the amount of ink in the ink tank 17.

The present invention is not limited to the above-described embodiment, but the wavelength of the fluorescent light emitted by the fluorescent dye 1 is changed according to the ink color of the ink nugget, and the light receiving element 9 can be detected. By making the wavelength of light different according to the ink color of the ink nugget put in the ink melting chamber 13, when an ink nugget of a different ink color is put in the ink melting chamber 13, it is abnormal by the output device 23. The operator can be warned of this and the printing operation of the recording device can be stopped.

[0032]

As is apparent from the above description, in the recording apparatus of the present invention and the hot melt ink used therein, the hot melt ink containing or holding the fluorescent substance is inserted in the ink melting portion of the recording apparatus. As opposed to
The fluorescent dye emits fluorescence when the light emitting unit emits predetermined light. The light receiving section detects this fluorescence, and the control means controls the operation of the apparatus based on the output from this light receiving section, so that it is possible to manufacture hot melt ink without being restricted by the shape of the ink at the time of supply. Therefore, it is possible to improve the manufacturing efficiency by making the parts common and to prevent problems such as deterioration of the printing quality due to the mixing of different hot melt inks and the like, thereby enabling stable printing.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing an ink supply unit of a recording apparatus embodying the present invention.

FIG. 2 is a flowchart of the operation of the recording apparatus.

[Explanation of symbols]

 5 ink nugget 7 light emitting lamp 9 light receiving element 13 ink melting chamber 19 ink flow path 21 control device

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display location C09D 11/00 PSZ B41J 3/04 103 S

Claims (3)

[Claims] 1. A recording apparatus using a hot melt ink which is a solid at room temperature and becomes a liquid when heated to a temperature higher than room temperature, comprising: a light emitting section which emits predetermined light to the hot melt ink; A recording comprising: a light receiving unit for detecting the light emitted by the fluorescent dye contained in the hot melt ink by the emitted light; and a control unit for controlling the operation of the apparatus based on the output of the light receiving unit. apparatus. 2. The recording apparatus according to claim 1, further comprising an ink melting section capable of holding the hot melt ink and having heating means for heating and melting the held hot melt ink at a predetermined temperature. The recording device, wherein the light emitting unit and the light receiving unit are arranged in the ink melting unit, and the control unit controls energization of the heating unit based on the output of the light receiving unit. 3. A hot melt ink containing or holding a fluorescent dye which emits light when receiving the light emitted by the light emitting section according to claim 1.