Stock material or miscellaneous articles – Composite – Of polyamidoester
Reexamination Certificate
1997-12-24
2001-04-03
Dixon, Merrick (Department: 1774)
Stock material or miscellaneous articles
Composite
Of polyamidoester
C428S432000, C428S417000, C428S402200
Reexamination Certificate
active
06210804
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a direct heat-sensitive recording method and device using a light-fixing-type heat-sensitive recording material.
2. Description of the Related Art
In heat recording, there is a heat transfer recording method and a heat-sensitive recording method. As compared with the heat transfer recording method, the heat-sensitive recording method is advantageous in that waste matter is not generated and the running costs are low. In order to carry out full color recording by using the heat-sensitive recording method, the three colors of yellow, magenta and cyan must be recorded independently. For example, there is a method in which heat-sensitive recording layers, which develop to different colors and have different heat recording sensitivities, are layered one upon the other, and the colors thereof are respectively formed by the magnitude of the heat. However, in this case, when the second color is recorded, the first color is formed. Therefore, a drawback arises in that it is not possible to form only the second color, and only the third color.
In order to overcome this drawback, a heat-sensitive recording method has been proposed which makes independent recording of the three colors possible by the introduction of a fixing process which is such that, when the second color is recorded, the first color is not formed, and when the third color is recorded, the second color is not formed.
As illustrated in
FIG. 18
, an image recording device
1
which effects full color recording in accordance with this method includes guide rollers
5
for guiding a color heat-sensitive recording material (“recording material”)
3
to a recording section, a thermal head
7
and a platen roller
9
which are provided at the recording section, a pinch roller
11
and a capstan roller
13
which convey the recording material
3
in forward and reverse directions, and two fluorescent lamps
15
a,
15
b
for exposure at different wavelengths (420 nm, 365 nm).
The processes of the full color recording carried out by the image recording device
1
are described hereinafter with reference to
FIGS. 19 and 20
. First, a yellow layer
17
of the supplied recording material
3
is developed (the color thereof is formed) by a low-energy amount of heat corresponding to recording information for the yellow layer
17
. Thereafter, while the recording material
3
is conveyed in the reverse direction, the yellow layer
17
is light-fixed by ultraviolet light of 420 nm.
Next, while the recording material
3
is being conveyed in the forward direction again, the magenta layer
19
is developed by a medium-energy amount of heat corresponding to recording information for the magenta layer
19
. Thereafter, while the recording material
3
is again conveyed in the reverse direction, the magenta layer
19
is light-fixed by ultraviolet light of 365 nm.
Finally, while the recording material
3
is again being conveyed in the forward direction, the cyan layer
21
is developed by a high-energy amount of heat corresponding to recording information for the cyan layer
21
. The recording of three independent colors, i.e., full color recording, is thus completed.
FIG. 21
illustrates another image recording device
23
. In this structure, three thermal heads
25
a,
25
b,
25
c,
which supply low-energy, medium-energy, and high-energy amounts of heat respectively, are disposed in order along the feeding direction of the recording material
3
. A fluorescent lamp
27
a
of 420 nm is disposed between the low-temperature thermal head
25
a
and the medium-temperature thermal head
25
b.
A fluorescent lamp
27
b
of 365 nm is disposed between the medium-temperature thermal head
25
b
and the high-temperature thermal head
25
c.
The processes of the full color recording carried out by this image recording device
23
are as follows, as illustrated in FIG.
22
. First, the yellow layer
17
of the supplied recording material
3
is developed by the low-temperature thermal head
25
a.
Immediately thereafter, the yellow layer
17
is light-fixed by the ultraviolet light of 420 nm. Next, the magenta layer
19
is developed by the medium-temperature thermal head
25
b.
Immediately thereafter, the magenta layer
19
is light-fixed by the ultraviolet light of 365 nm. Finally, the cyan layer
21
is developed by the high-temperature thermal head
25
c.
Thus, the full color recording of the recording material
3
is completed by conveying the recording material
3
one time in the feeding direction thereof.
However, in the image recording device
1
illustrated in
FIG. 18
, the recording material
3
which has been conveyed once must be conveyed in the reverse direction, so as to pass by the thermal head
7
three times. Therefore, a drawback arises in that an image cannot be recorded on the recording material at high speed. Further, in the image recording device
1
, because the number of times the recording material
3
contacts the thermal head
7
is large, it is easy for the recording material
3
to be damaged or for portions of the recording material to not develop due to dirt or the like adhering thereto. Further, because the recording material
3
is conveyed plural times, there is also the problem of the registration shifting greatly.
Moreover, in the image recording device
23
illustrated in
FIG. 21
, although recording is completed by the recording material
3
being conveyed one time in the feeding direction, it is necessary to provide the three thermal heads
25
a,
25
b,
25
c.
Drawbacks arise in that the cost of the device increases, and the device becomes large. Further, in the image recording device
23
, another drawback arises in that, because color formation by the low-temperature thermal head
25
a
is started after the leading end of the recording material
3
has reached the pinch roller
11
, the blank space before recording begins is large.
SUMMARY OF THE INVENTION
In view of the aforementioned, an object of the present invention is to provide a direct heat-sensitive recording method and device using a light-fixing-type heat-sensitive recording material, which device and method enable high-speed recording of an image onto a recording material, and in which the structure of the device is compact and inexpensive.
In order to achieve the above-described object, the present invention provides a direct heat-sensitive recording method using a light-fixing-type heat-sensitive recording material in which are layered on a support a heat-sensitive recording layer and at least one light-fixing-type heat-sensitive recording layer, which have heat recording sensitivities higher than a heat recording sensitivity of the heat-sensitive recording layer and which are fixed by electromagnetic waves of respectively different wavelengths, each layer of the light-fixing-type heat-sensitive recording material developing to a respectively different color, comprising: a step of deactivating imagewise each of the light-fixing-type heat-sensitive recording layers corresponding to respective colors by modulating light amounts of electromagnetic waves having respectively different wavelengths and illuminating the electromagnetic waves onto the light-fixing-type heat-sensitive recording layer; and a step of developing the heat-sensitive recording layer imagewise and developing undeactivated portions of the light-fixing-type heat-sensitive recording layer by applying to the light-fixing-type heat-sensitive recording material heat energy needed to develop the heat-sensitive recording layer.
The heat amount of the heat energy applied to the light-fixing-type heat-sensitive recording material may be modulated on the basis of heat energy which is less than the minimum heat energy needed to develop the heat-sensitive recording layer and which can develop the light-fixing-type heat-sensitive recording layer.
The present invention also provides a direct heat-sensitive recording device using a light-fixing-type heat-sensitive recording material in which are layere
Sawano Mitsuru
Usami Toshimasa
Dixon Merrick
Fuji Photo Film Co. , Ltd.
Sughrue Mion Zinn Macpeak & Seas, PLLC
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