JP2001027872A - Electrophotographic printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve reliability and durability without sacrificing the fixing performance of paper even in the case of printing much. SOLUTION: This printer is equipped with a counting means 11, a paper passing interval adjusting means 12 and a temperature adjusting means 13. When the counting means 11 counts the fixed number of sheets of paper 2, the adjusting means 12 widens the interval of paper passing that the paper passes to a heat roller 1, and the adjusting means 13 acts to lower the temperature of the roller 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrophotographic printer for forming an image by an electrophotographic method.

[0002]

2. Description of the Related Art In an electrophotographic printer, an electrostatic image is formed on a photosensitive member, the electrostatic image is developed, and the developed image is transferred to a sheet. The image transferred to the sheet is sent to a fixing unit, where the image is fixed and printing is completed. As the fixing unit, a method of performing heat fixing using a heat roller or the like is widely used.

FIG. 4 shows a fixing section of a conventional electrophotographic printer.
Shown in FIG. 4A is a side view of the fixing unit, and FIG. 4B is a front view thereof. As shown in these drawings, in the fixing unit, the paper 2 is passed between the heat roller 1 and the pressure roller 6 and is heated and pressed to fix the paper 2. The heat roller 1 has a built-in heater (not shown) covering the entire area in the longitudinal direction, and has a bearing 3 and a separator 4 as mold members on the roller surface.
(Not shown in FIG. 4 (b)). A temperature control sensor 5 is in contact with a central portion in the longitudinal direction of the heat roller 1. This temperature control sensor 5 is shown in FIG.
As shown in FIG. 1, the temperature of the paper passing portion 1a of the heat roller 1 is detected to control the temperature of the heater in the heat roller 1. The electrophotographic printer controls the temperature of the heat roller 1 based on the detection value from the temperature control sensor 5 so as to keep the temperature of the paper passing portion 1a constant in order to stabilize the fixing property of the paper 2.

[0004]

By the way, in such an electrophotographic printer, when the paper 2 is a thick narrow paper (for example, a postcard), when the fixing unit continuously fixes a plurality of sheets, the heat roller 1 is fixed. There is a problem that the temperature difference between the sheet passing portion 1a and the non-sheet passing portion 1b becomes large. That is, since the sheet 2 continues to lose heat in the sheet passing section 1a, the temperature control sensor 5
The heat roller 1 is heated based on the detected value of. Paper 2
The amount of heat taken away is large because the sheet is thick, and the amount of heat applied to the heat roller 1 is also large in order to keep the temperature of the sheet passing portion 1a constant. However, heat is not taken away in the non-sheet passing section 1b,
As the heat roller 1 is heated so as to keep the temperature of the paper passing portion 1a constant, the temperature of the non-paper passing portion 1b continues to rise. The temperature difference between the sheet passing portion 1a and the non-sheet passing portion 1b increases as the number of sheets continuously printed increases. Thus, the non-sheet passing portion 1b
If the temperature continues to rise, the temperature of the mold members (bearing 3, separator 4, etc.) in contact with the non-sheet passing portion 1b reaches the use limit temperature, and thermal deformation of these mold members is induced to shorten the service life. Was.

Conventionally, as means for solving such a problem, the thickness of the heat roller is increased to increase the thermal conductivity in the longitudinal direction of the heat roller, or a heater dedicated to narrow paper is attached. However, in the former case, there is a problem that the warm-up time of the fixing unit becomes longer, and in the latter case, there is a problem that the cost is significantly increased. Also,
Without such means, the heat roller temperature had to be lowered or the printing speed had to be increased to the extent that the fixability of thick narrow paper was sacrificed.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an electrophotographic printer having improved reliability and durability without sacrificing the fixing property of paper even when printing in large quantities. With the goal.

[0007]

According to the first aspect of the present invention,
A counting means for counting the number of sheets passed through the heat roller in an electrophotographic printer having a heat roller and continuously passing a plurality of sheets at predetermined time intervals to the heat roller; Paper feed interval adjusting means for adjusting a time interval for feeding the sheet to the heat roller based on the count value counted by the counting means, and a temperature for adjusting the temperature of the heat roller based on the count value counted by the count means. It is characterized by comprising adjusting means.

In this electrophotographic printer, at least one of a time interval between sheets to be sent to the heat roller and a temperature of the heat roller is adjusted in accordance with the number of sheets passed through the heat roller. Therefore, even if the number of sheets to be printed is large, these adjustments can appropriately adjust the temperature difference generated between the sheet passing portion and the non-sheet passing portion of the heat roller. Further, the time required for one sheet of paper to pass through the heat roller (paper passing time) can be constant, so that the fixing property of the paper is not affected, and the quality of a printed photograph does not deteriorate. . Furthermore,
Since the heat conductivity of the heat roller does not need to be high, a thin heat roller can be used, and the warm-up time can be reduced.

According to a second aspect of the present invention, in the electrophotographic printer according to the first aspect, when the counting means counts a predetermined number of sheets, the sheet passing interval adjusting means causes the sheet passing through the heat roller to pass. The time interval is extended without changing the paper time, and the temperature adjusting means lowers the temperature of the heat roller.

In this electrophotographic printer, the time interval of the sheet to be sent to the heat roller and the temperature of the heat roller are kept constant until the counting means counts a certain number of sheets. It operates so as to widen the time interval (sheet passing interval) of the paper sent to the roller and to lower the temperature of the heat roller. If you increase the paper passing interval,
The amount of heat of the high temperature non-sheet passing portion moves to the low temperature sheet passing portion, and time for reducing the temperature difference between the two can be obtained. Further, when the heat roller temperature is lowered, the amount of heat applied to the heat roller is reduced, and the temperature rise in the non-sheet passing portion is suppressed.
By these two actions, even if the number of printed sheets is large, the temperature difference between the paper passing portion and the non-paper passing portion is reduced, the temperature rise in the non-paper passing portion is suppressed, and the thermal deformation of the mold member is suppressed. Etc. can be prevented.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of an electrophotographic printer according to the present invention will be described below with reference to FIGS. In the present embodiment, only points different from the conventional example will be described, and the same components as those in the conventional example will be denoted by the same reference numerals and description thereof will be omitted. The difference from the conventional example is that the electrophotographic printer includes a counting unit 11, a paper passing interval adjusting unit 12, and a temperature adjusting unit 13.

As shown in FIG. 1, the counting means 11 counts the number of sheets passed through the heat roller 1 of the fixing section, and when the set number is counted, the sheet feeding interval is adjusted via control means (not shown). The means 12 and the temperature adjusting means 13 are operated. The paper passage interval adjusting means 12 includes the counting means 1
By (1), the adjusting operation is performed so as to widen the sheet passing interval of the sheet 2 previously sent to the heat roller. The temperature adjusting means 13 performs an adjusting operation by the counting means 11 so as to lower the temperature of the heat roller 1 from the previous temperature. The temperature adjusting means 13 is also connected to the temperature control sensor 5, and adjusts the temperature of the heat roller 1 in accordance with the temperature of the sheet passing portion 1a.

FIG. 2 shows a sheet passing interval adjusting means 12 and a temperature controller.
The outline of the adjusting operation of the adjusting means 13 will be described. In this figure
(A) shows the adjusting operation of the paper passing interval adjusting means 12,
(B) shows the adjusting operation of the temperature adjusting means 13. In this figure
As shown in the figure, the counting unit 11 starts printing (the number of passed sheets 1).
From the (sheet number) to the counting of the sheet number A, the sheet passing interval
The adjusting means 12 determines that the paper passing time p and the paper passing interval i₁(Eg 1
Paper 2 is passed through the heat roller 1 constantly and continuously for 2 seconds.
ing. In addition, the paper passing time p is a value per one sheet of the paper 2.
The time required to pass through the heat roller 1
It is an element that affects the fixability. In addition, temperature adjusting means
Reference numeral 13 denotes a temperature t of the paper passing portion 1a of the heat roller 1.₁(Eg 1
(90 ° C.). Counting means 1
1 counts the number A of sheets passed, the sheet passing interval adjusting means 1
2 and a signal to the temperature adjusting means 13. Paper interval adjustment
The stage 12 receives the signal from the counting means 11 and outputs the paper passing time p.
So as to increase the paper passing interval, that is,
Interval i _Two(I_Two> I₁). Also the temperature
The adjusting means 13 receives the signal from the counting means 11 and
Temperature of the paper passing portion 1a of the_Two(T₁> T_Two)
Works like In this way, is the number of sheets passed (A + 1)
The paper passage interval adjusting means 12 calculates the paper passage time p, the paper passage interval
i_Two(For example, 3 seconds) and heat the paper 2 constantly and continuously.
Roller 1 Further, the temperature adjusting means 13
Sets the temperature of the paper passing portion 1a of the heat roller 1 to the temperature t._Two(For example, 180
C) to keep it constant. At this time
Temperature t_TwoIs set so that it does not affect the fixability of paper 2.
It just needs to be lowered.

FIG. 3 shows a comparison between the conventional example and the present embodiment with respect to the relationship between the number of sheets 2 passed and the change in the temperature of the heat roller 1. In this figure, (a) shows the temperature transition of the non-sheet passing portion 1b in the conventional example, and (b) shows the temperature transition of the non-sheet passing portion 1b in the present embodiment.
(C) shows the transition of the temperature of the paper passing unit 1a in the conventional example, and (d) shows the transition of the temperature of the paper passing unit 1a in the present embodiment. As shown in this figure, after the elapse of the warm-up time, the temperature of the heat roller 1 becomes different between the sheet passing portion 1a and the non-sheet passing portion 1b. In the conventional example, the temperature of the sheet passing portion 1a is constant irrespective of the number of sheets passed as shown in (a), but the temperature of the non-sheet passing portion 1b is proportional to the number of sheets passed as shown in (c). And so on. And when the number of sheets passed becomes B,
The temperature of the non-sheet passing portion 1b reaches the use limit temperature of the mold member (bearing 3, separator 4, etc.), and the mold member becomes unusable due to thermal deformation and the like. In the present embodiment, when the number of passed sheets exceeds the Ath sheet,
As shown in FIG. 3D, the temperature of a once decreases and then keeps constant. Further, the temperature of the non-sheet passing portion 1b does not rise above a certain value as shown in FIG. for that reason,
Even if the number of sheets to be continuously printed exceeds B, the temperature does not reach the use limit temperature of the mold member.

In the present embodiment, the counting means 11
When the number of sheets is counted, an operation is performed so as to widen the paper passing interval to the heat roller 1 and lower the temperature of the heat roller 1. Therefore, in the heat roller 1, the amount of heat of the non-sheet passing portion 1b moves to the sheet passing portion 1a, so that it is possible to gain time for reducing the temperature difference between the non-sheet passing portion 1b and the sheet passing portion 1a. Heat roller 1
, The amount of heat applied to the heat roller 1 decreases, and the temperature rise of the non-sheet passing portion 1b is suppressed. These two
By the two operations, even if the number of prints is large, the temperature difference generated between the sheet passing portion 1a and the non-sheet passing portion 1b can be reduced. Therefore, the temperature rise of the non-sheet passing portion 1b can be suppressed, and the thermal deformation and the like of the mold member (the bearing 3, the separator 4, etc.) can be prevented, and the reliability and durability of the electrophotographic printer are improved. Further, since the paper passing time p is constant, the fixing property of the paper 2 is not affected, and the quality of the printed photograph is not degraded.

[0016]

As described above, in the electrophotographic printer according to the present invention, the interval between the heat rollers and the temperature of the heat roller are adjusted in accordance with the number of sheets passed through the heat roller. I have. Therefore, it is possible to provide an electrophotographic printer in which the life of the mold member is extended and the reliability and durability are improved without adversely affecting the fixing property of the sheet even when a large amount of printing is performed. Further, since the heat conductivity of the heat roller does not need to be high, a thin heat roller can be used, and the warm-up time can be reduced.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an embodiment of an electrophotographic printer according to the present invention, and is a side view of a fixing unit.

FIG. 2 is a schematic view showing the operation of the electrophotographic printer.

FIG. 3 is a graph showing a comparison between a temperature change of a heat roller in the electrophotographic printer and a temperature change of a heat roller in a conventional electrophotographic printer.

4A and 4B are diagrams illustrating a fixing unit in a conventional electrophotographic printer, wherein FIG. 4A is a side view and FIG. 4B is a front view.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Heat roller 2 Paper 3 Bearing (mold member) 4 Separator (mold member) 5 Temperature control sensor 6 Pressure roller 11 Counting unit 12 Paper passing interval adjusting unit 13 Temperature adjusting unit

Claims (2)

[Claims] 1. An electrophotographic printer having a heat roller and continuously passing a plurality of sheets at predetermined time intervals to the heat roller, wherein the number of sheets passed through the heat roller is Counting means for counting,
Paper passing interval adjusting means for adjusting a time interval for feeding the sheet to the heat roller based on the count value counted by the counting means; and temperature adjustment for adjusting the temperature of the heat roller based on the count value counted by the counting means. An electrophotographic printer comprising means. 2. When the counting means counts a predetermined number of sheets, the paper passing interval adjusting means widens the time interval without changing the paper passing time for the paper to pass through the heat roller, and the temperature adjusting means 2. The electrophotographic printer according to claim 1, wherein the temperature of the heat roller is reduced.