JPS58153977A - Flash fixation device - Google Patents

Abstract

PURPOSE:To reduce the power consumption of a flash lamp and make the fixation state of a toner uniform to obtain a good image, by providing a conduit- shaped mirror at the rear of the flash lamp and providing a recessed and curved transfer paper passage in the front of the flash lamp. CONSTITUTION:A mirror which is located around an axis X of a flash lamp 1 as the center and has a semicircular section is provided along the axis X at the rear of the flash lamp 1, and a transfer paper passage P consisting of a semicircular part 31 locating around the axis X as the center and vertical parts 32 and 32' extending vertically from both ends of the semicircular part 31 is provided in front of the flash lamp 1. Sucking holes 4 are formed in the transfer paper passage P. A transfer paper is brought closely into contact with the transfer paper passage P by suction and is guided and is fed out from the vertical part 32' through the semicircular part 31. A toner of the transfer paper is fixed with the flash at every length of a fixation region in the semicircular part 31. The length between the transfer paper and the lamp 1 is constant in any position, to make uniform the fixation state of the toner.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a toner C fixing device that is used to form a visible double layer.

The flash fixing method is advantageous in that it does not require waiting time, which is used to complete the κ-waking process, unlike the heater method. This is the lIltk method.

An example of a conventional 7-rush fixing device used in such a system is, for example, as shown in &fll I IIK. (3) A guide mechanism for guiding the transfer IIk is formed along the transfer gear 1i11PK extending along one plane 1iK of the flash lamp 1. A flash lamp 107 (LK) is provided to dissolve the toner and fix it on the transfer I#.

However, the fixing area C#i where the toner can be effectively fixed by melting the cinnamon by the light emission of the flash lamp 11, the fixing area C#i, which is determined by the output size of the flash lamp 10, the shadow shape of the mirror 20, etc. Lightning mirror 2 aperture 1
The length is approximately equal to the length along the locking line P under 1. However, in the case of Shiner fixing, the transfer paper is fed from 1k to the fixing area C.
The length is 11. On the other hand, since the flash lamp 10 emits light at *1hK constant 0:00 sew of charging, KFi fixing is used to obtain speed.
It is necessary to increase the length of area C, but the key to this is to use a relatively large 7 lash lamp 1 to keep the cost low.
It is essential that this can be achieved while reducing the size of 0 people to 1k.

By the way, in the flash fixing device shown in No. 111, it is located farthest from the flash lamp 1)
ner, that is, the front end of the fixing area C IIcI JP-A-58-15
3977 (2) Alternatively, if the size of the input of the flash lamp l is determined so as to reliably fix the sinner located at #1 @ end flc2, the thickness of this input will be fixed at the center of the fixing area C. In the end, the 10-input flash lamp had to have a large diameter O and L, which is unnecessary.
When the distance between the flash lamp 1 and the flash lamp 1 is reduced, there is a big difference between the O distance from the flash lamp 1 to the anchoring area CO @ @ part c1 or the rear end C2 and the distance at the center trench. Therefore, the illuminance distribution in the fixation castle C has an unevenness of about ±10≦, and the fixation pattern 11 of this large F is uneven, making it impossible to obtain good visibility. There were also some drawbacks. The present invention was made based on these circumstances.
Therefore, we have developed a flash fixing device that can reduce the power consumption of the flash lamp, and can also make the fixation pattern of the film uniform and obtain a good visible image. (5) The purpose of this invention is to provide a fixing rod-shaped flash lamp, and a fence-shaped mirror arranged along the axis of the flash lamp to imitate this flash lamp. Kr! is located in front of the flash lamp O and is located at a distance Kr! of the axis of the flash lamp! ! J-shaped curve-L
The toner image to be fixed is provided with a guide mechanism for guiding the formed transfer material along the transfer material path.

An embodiment of the present invention will be described below with reference to Figure rlJK.

Reference numeral 11211 is a schematic perspective view showing a flash fixing device according to an embodiment of the present invention. This flash lamp 1c
On the III side, along the axis 1 of the flash lamp 1,
For example, in the story line, the circle 0 centered on the axis
Ushienbo 04 Ra 2 with two fI along part of the circumference
will be established. 3 is a passage member that constitutes the transfer paper passage SIP], and the guide machine-1000 (6) that guides the transfer paper along the transfer paper 1i11F+PK. A semicircular portion 31 located on the surface of the flash lamp lO# and extending along a part of the shoulder of a circle centered on the axis ' and this vertical 1s3
2. From the tip of 32'] Bend outward and attach large 1133.3
3' and 1, the semicircular part 311 and the vertical part 32.32'
A suction hole 4 is formed along the transfer paper path D. The passage member 3 is connected to the passage member 3 by 0rlRKII.
Suction from an exhaust fan, etc. to the factory 11 to form a blockage 41
It is supported by a support member 5 in which a structure 6 is incorporated. The suction 16 together with the suction hole 4 and the suction chamber 41 constitute the guide mechanism loo 0-II. Therefore, the second gK
As shown in the figure, when the transfer sheet 30 is vertically s32, 32'K, and the toner sheet to be fixed is sent to the transfer paper 1, the suction mechanism 60 moves the transfer I17 to the passage member 5KIII. Semicircle part 3
1 and vertically 1132').

When this 7 lassie lamp 1 is constant, @121Im is placed and the flash operation is performed -1 turn fffi7 is semi-internal 31
(7) When passing through, the toner is fixed on the transfer paper 7, and in this way, the toner is transferred to the semicircular portion 31tj.
The length of the fixing area mK will be fixed.
In front of flash lamp 1, 111F13 is 7
It has a semicircle $I31 along the shoulder -sK of the circle centering on the lash lamp 109X, where the liner on the transfer paper is 7
In order to accommodate the lash, the length of the fixing area can be greatly increased without increasing the input power of the flash lamp 10 compared to the conventional case. If the flash lamp 111 and mirror 2 shown in the 3rd tlK are used for this seamount, the length of the fixing area C is as shown by the dotted line in Figure s4. Well, the casting part C1
, that is, the rear end 11c2 from the position CI+ near one end of the opening of the mirror 2, that is, the mirror t.

- close to the opening C1 and the other tin - and the distance at the position C2t - If the input of the flash lamp l is the same, the length of the fixing area C in the above embodiment is as follows.
3977 (3) The length from the end C1 to the rear end C2 along the shoulder of the circle is: (Therefore, the fixed image area CK is located per unit area of the transfer paper) The required size of the flash lamp 10 input to complete the fixing of the flash lamp is divided by the total area of the tube fixing area C. Hereinafter, it is possible to reduce the "minimum lamp human power J" compared to the conventional device.Another aspect of this effect is to reduce the radius of the circle related to the semicircular portion 31, that is, the fixing area C.
The straight line distance connecting the front end 5C111 and the firefly end C2 is made smaller than the distance in the conventional device, and the length of the fixing area C is made the same as the length in the conventional device 1. Area CID# end ll6C1 or a
Since the distance to the m section C2 is smaller than in the case of the conventional device, the input to the flash lamp 10 can be made smaller, and the mirror 2 can also be made smaller! It is difficult to set the percentage to 1. Then, the transfer paper is guided in the fixing area C along the shoulder -11 of a circle centered on the axis X of the li7 lash lamp 1 (e). - Even if the toner is of the same size and diameter, the illuminance distribution is uniform, and the fixation state S of the toner is uniform.As a result, a good visible image can be obtained. The passage member 3rl) 4 has a suction mechanism 6 that affects the hole 4 and sucks the lock through the suction hole 4.The transfer paper can be brought into close contact with the passage member 3, and therefore the transfer Since the paper is reliably guided along the transfer paper path IIPK, the above-mentioned effects can be reliably obtained.

Here, we will explain a measurement case in which the conventional device shown in FIG. The height Ll of 2 is 33■, and the distance from the center axis of flash lamp 1 to the upper WJ of mirror 2 is 01
iiflL2 is 17, the length L3 of the opening along the transfer paper 5IPK of mirror 2 is 44■, and the flash lamp 1 (
The distance 11L4 between the center axis of l and the transfer paper ieMP is set to 19cm, and the length of the light emitting (10) within the tube O is 11$101. Using the flash lamp 1, the unfixed toner image is 14 size transformation vI#
The minimum lamp input was determined by changing the input voltage of eZ% flash lamp 10 by performing flash fixing while moving the paper along the wrong path PK. And the capacity of the capacitor for the flash lamp IKmlk is 4N.
By sequentially changing the size of the
1/3 optical pulse radiation (1/3 of the peak size of the optical pulse
The magnitude of the pulse intensity 1-U・) at the large position is sequentially changed to 4 times corresponding to the magnitude of The magnitude was determined and plotted on the vertical axis, and the magnitude of the 173 optical pulse radiation was plotted on the horizontal axis, resulting in a good result shown by the dotted line @511.

On the other hand, in 11311, the radius 11 of the circle related to the mirror 2 is 20 cm, the radius L2 of the circle related to the passage member 3 is 25 cm, and L1
When the same IIO measurement as described above was carried out using the same flash lamp 13 and transfer AT-1 as described above, nine results were obtained as shown by the solid line in Figure 114.

(11) Therefore, from this constant result, it is understood that the minimum lamp input for -IC fludge: LKsk roasting is 30 arc degrees smaller in the device of the embodiment than in the conventional device. When we tested ii*, which was fixed using the following method, we found that l1f11, in which the toner was fixed, was better when using the apparatus of the embodiment than when using the conventional apparatus. .

Here, in constructing ** of the above-mentioned embodiment, we will clarify the shape of the trench and the shadow of the mirror 2 and the passage Bm material 3.The radius 41 of the circle related to the mirror 2 and the radius of the circle related to the passage member 3 It is preferable that L2 be in the relationship shown by the following formula. (2) The above embodiments have been explained, but in the present invention, (1) the transfer IE is placed in front of the 7 latches...', 1, and along the semicircular transfer paper path. It is determined by KWI that it is not #i, but has a concave K1116L large transfer paper passageway around the axis of the flash lamp.
7(4).

p) Guide the transfer paper along the transfer paper path,
Instead of using the suction unit 1, the transfer IIkK air may be blown from the surface side of the transfer paper, or this air blowing and suction by the suction device 111 may be used in combination** C) The expansion and softness of the mirror should be semicircular in length.
It is not possible to create a trapezoid, and the trapezoid formation may be a tsumumono taiho.

2) As for the mechanism for sending the transfer paper, it is possible to use a structure that was lacking in the past.

As described above, the transfer material such as transfer paper is placed in front of the flash lamp and is guided along the transfer material path in a concave shape around the neck of the flash lamp shaft. Therefore, it is possible to reduce the minimum input input of the flash lamp, and it is also possible to equalize the illuminance distribution on the transfer plate in the fixing area, thereby reducing the power consumption of the flash lamp. can,
(13) However, 4) It is possible to obtain a good uniformity by making the fixing state of the glue uniform.
The transfer material can be guided reliably along the transfer material passage 11 by using a suction chamber that sucks the transfer material through the exit hole of the return path member 11. In combination, it is possible to provide a flash fixing device that can obtain the above-mentioned effects to a greater extent.

41! l1iO Simple 1 @ Akira 111111tj Explanatory diagram showing a conventional 7-lash fixing device, 112[i Schematic diagram showing a flash fixing device according to an embodiment of the present invention I! 113■ is a flash fixing device 1) @ Danjukakuen, item 4■ is an explanatory diagram comparing the conventional device and the embodiment OII setting regarding the fixing area, and item SIR Catfish Shiner. 〇Due to the magnitude of the input of the flash lamp required for the specified 51 I''), the conventional device and the device of the embodiment are plotted on this edge graph. 1...Flash lamp 2...Mirror 3... Passage member 31... Ushienbo (14) 4... Suction hole Shishi... Suction chamber 5... Support member 6... Suction mechanism 7... Transfer IcP
-...Transfer paper passage 100...Guidance mechanism/IE2 decoy 2 3 factors 4 diagram) "- 1 Figure 5 2.7・"]/- 1/3 spear ha・1Vλ width 561-3 〆・ & (rMK)

Claims (1)

[Scope of Claims] l) A rod-shaped flash lamp for fixing, and a tL disposed along the axis of the flash lamp.
a large fence-like cellar, and a cellar located on the side of the flash lamp CIIF1, and the axis C of the flash lamp Kl.
! A flash fixing device characterized by comprising a guide mechanism for guiding a fixed photographic material attached to a fixing roller along a curved transfer material path. 2) The guide mechanism guides the transfer material path, III
A flash of 41I, which includes a passage member having a cIII drawing hole, and a drawing chamber for drawing the transfer material through the drawing hole. Fixing device ・ 3) In the electric current of the mirror, which is the cut-off type II, - centered on the C-axis of the flash lamp,
It extends along a part of the chest C of the r, r circle, and the mesh transfer material C-s extends along the circumference C-! The flash fixing device is a flash fixing device that extends along the radius L1 and the radius L2, and has a relationship that satisfies the following equation.