JPH02178163A - Curl straightener - Google Patents

Abstract

PURPOSE:To make sure of curl straightening by a pressing part by installing this pressing part, pressing a sheet in the opposite direction to a curl, between two sets of roller pairs, and changing a rotational speed ratio of these roller pairs on the basis of the detected result of water content. CONSTITUTION:A sheet is conveyed by two sets of roller pairs set up distantly, and pressed to both upper and lower directions in the opposite direction to a curl by a pressing part 19 installed between these roller pairs 8 and 11, thus curl straightening takes place. Each rotational speed of these roller pairs 8 is made equal to the roller pairs at the discharge side of a fixing unit 108, and each rotational speed of the roller pairs 11 is made free of alteration by a motor. When water content of the sheet is detected out of a resistance value of the sheet and inputted into a control part, each drive motor of the roller pairs is operated by the detected result, and respective rotational speed ratios of these two set of roller pairs 8, 11 are changed. Therefore a sheet speed between both the roller pairs 8 and 11 is changed so that the curl straightening by the pressing part 19 is properly performed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a curl correction device for correcting curl of paper caused by fixing a toner image in a copying machine, a printer, or the like.

[Prior art]

In the fixing device installed in copying machines, etc., which fixes toner images, paper jams and image formation defects occur when refeeding paper when performing double-sided/composite copying, etc., or stacking defects in trays such as sorters. To prevent this from happening, it is necessary to prevent the paper from curling after the toner has settled. It is known that this curl can easily occur under the influence of heat, especially when the fusing device has a heating means, because the paper contains moisture that corresponds to the humidity in the room. There is a limit to the ability to accommodate a wide range of changes in the amount of moisture absorbed, that is, the moisture content.

For this reason, various curl correction devices have been proposed to correct the curls on the paper discharged from the fixing device. The moisture content of the paper is detected, and an amount of water vapor corresponding to this moisture content is applied to the paper after the toner image has been fixed.

[Problem to be solved by the invention]

By the way, in the above-mentioned conventional apparatus, curl is straightened using water vapor, but due to the nature of water vapor, it is difficult to specify the exact amount according to the degree of curl, which varies depending on the moisture content of the paper. , if this is small, then
If the curls are not corrected sufficiently or if there are too many, for example, the sheets ejected onto the tray due to continuous copying may stick to each other, making it difficult to handle them later, or when refeeding the sheets. There is a problem in that the paper passing performance of the paper refeeding mechanism deteriorates. Furthermore, unless an appropriate amount of water vapor is provided corresponding to the speed at which the paper is discharged from the fixing device, similar problems will occur.

In other words, even if the amount of water vapor is the same, a fixing device that discharges the paper at a high speed may not be able to correct the paper sufficiently, while a fixing device that is slow may correct the paper too much.

The present invention has been made in view of the above circumstances, and by using a means for correcting curls that can clearly determine the degree of change in the amount of correction, it is possible to specify the correct amount of correction according to the degree of curl. To provide a curl correction device which can properly and easily cope with the paper discharge speed of a fixing device regardless of its height.

[Means to solve the problem]

A curl correction device according to the present invention is configured to detect the moisture content of recording paper, and change the amount of correction for correcting curls that occur on the recording paper after toner image fixation based on the detection result. , two pairs of rollers are arranged at an appropriate distance from each other and transport the recording paper in a pinched manner between the respective rollers; and a means for changing the rotational speed ratio of the two roller pairs based on the detection result of the moisture content.

[Effect]

The recording paper on which the toner image has been fixed is pressed in a direction opposite to the curling direction of the paper by a pressing section between two pairs of rollers, and a rotation speed ratio is set for each roller pair according to the moisture content of the paper. The paper is conveyed while being held between rollers. Then, the recording paper is applied with a tensile force depending on the degree of curl between the pair of rollers, and the curl is corrected by being handled by the pressing section.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below based on drawings showing embodiments thereof. FIG. 1 is a schematic internal structure diagram showing how a copying machine is equipped with a curl straightening device according to the present invention. The copying machine 100 is provided with an optical scanning unit 102 equipped with an exposure lamp 102a below the document table 101, and the document placed on the document table 101 is exposed and scanned and rotated in the direction of arrow C. An exposed image is guided onto the photoreceptor drum 103. The developing device 104 develops the electrostatic latent image formed on the photoreceptor drum 103 into a toner image, and this toner image is transferred onto the upper surface of the sheet fed from the timing roller 109 using the transfer charger 105. The transferred paper is separated from the photosensitive drum 103 by a separation charger 106. The monthly report to which the toner image is transferred is fed into paper cassette l-11.
0 or 111, and after being temporarily stopped by the timing roller 109, the paper is fed between the photosensitive drum 103 and the transfer charger 105 after waiting for the feeding timing to a predetermined transfer position on the paper. It will be done. The timing roller 109 forms a part of a moisture content detector 72 (see FIG. 6) that detects the moisture content of the paper being fed, and this detection signal is input to the control section 70. The paper separated from 103 is transferred to conveyor belt 1
07 to the fixing device 108, where the toner image is melted and fixed, and then sent into the curl straightening device main body 1 according to the present invention, which is attached to the paper output port of the fixing device 108 to the outside of the machine. .

FIG. 2 is a perspective view showing the internal structure of the fixing device 108 and the curl straightening device main body 1, and FIG. 3 is the same (a vertical cross-sectional view thereof). Housing 4 forming parts 42 and 43
1, and a pair of rollers 44 and 49 are disposed inside each opening guide portion 42 and 43, respectively. The roller pair 44 includes an upper roller 45 and a lower roller 47 that have a built-in heater 46, and a temperature detection sensor 48 is in contact with the outer periphery of the upper roller 45. The rollers 50 and 51 are each rotated in the direction of the arrow by a drive means (not shown).

Guide plates 52 and 53 are provided between the roller pairs 44 and 49.

A receiving part 54 is formed in the lower part of the opening guide part 43 to support one end of a plate 60 for attaching the curl straightening device main body 1 to the copying machine 100; It is fixed to the copying machine 100 with bolts 61.

The curl straightening device main body 1 has a housing 2 consisting of an upper cover 3 and a lower cover 4, and as shown in FIG. It is formed.

The lower cover 4 and the mounting plate 60 are fixed by pins 62 and 63, and as a result, the opening guide portion 6 of the curl straightening device main body 1, that is, the paper entrance is connected to the fixing device 10.
It faces the opening guide portion 43 of No. 8, that is, the paper exit.

A pair of rollers 8 and 11 are disposed inside each opening guide portion 6 and 7, respectively. The driving force of a motor (not shown) disposed in the copying machine 100 is transmitted to 14 via the belt b, whereby each roller 9 and 10 is rotated in the direction of the arrow. Further, the roller pair 11 consists of rollers 12 and 13 that are in pressure contact with each other, and a gear 1 provided at one end of the roller 13
By transmitting the driving force of a roller drive motor 16 disposed in the curl straightening device main body 1 to the roller 5, each roller 12 and 13 is rotated in the direction of the arrow mark.

The rotational speed of the roller pair 8 is set equal to the rotational speed of the roller pair 49 on the ejection side of the fixing device 108, and the rotational speed of the roller pair 11 can be changed by the roller drive motor 16. The rotational speed of the roller pair 11 is detected by a rotary encoder 17 (see FIG. 5) built into the roller drive motor 16, and the ratio is calculated with the set speed of the roller pair 8 stored in advance in the control unit 70. (This calculation is performed by the control unit 70), the rotational speed ratio of the roller pair 11 to the roller pair 8 can be determined.

Between each pair of rollers 8 and 11, an upper guide 17 and a lower guide 18 whose central portions are bent upward and downward, respectively, are separated above and below a line connecting nip positions NI and Nz of each pair of rollers 8 and 11. They are arranged so that they are located at the same location.

Between the upper guide 17 and the lower guide 18 are roller pairs 8 and 1.
A pressing portion 19 is provided which contacts the paper being conveyed under tension between the paper 1 and the paper and pushes it up or down to the line connecting WN, NZ, and bends the paper by about two points. . The pressing section 19 is generally composed of two guide members 20.21, and the ends of these guide members 20.21 have their axial lengths aligned with the axial length directions of the respective roller pairs 8 and 11. They are rotatably connected by a parallel shaft 22.

The shaft 22 has both ends protruding to the outside through guide grooves 23.23 formed in the rear and front side walls 5.5 of the housing 2, and its protruding portions are attached to the side walls 5.5 through support shafts 24.24.
It is supported by gears 25 and 25 which are rotatably provided through.

Grooves 26.26 are formed on the back and front sides of the guide member 20, into which a shaft 27 fixed with a rack extending between the side walls 5.5 is inserted. Bins 28, 28 are protruded from the back and front sides of the guide member 21, and these are inserted into grooves 29.29 formed in the side walls 5, 5.
Movably guided.

The gear 25.25 supporting the shaft 22 meshes with gears 33.33 attached to both ends of the shaft 32, and the shaft 32 is rotatably supported on the side wall 5.5 and A worm 36 of a pressing portion drive motor 35 is meshed with a worm wheel 34 provided approximately at the middle end.

Therefore, by driving the pressing part drive motor 35, the drive shaft 32 and the gear 33 are rotated in the direction of the arrow a1 or az force, and the gear 25 is rotated in the direction of the arrow 9 or bt about the support shaft 24.
The shaft 22 is rotated in the force direction, and the shaft 22 is moved along the guide groove 23, and the guide member 20.21 of the pressing part 19 is directed downward (as shown in FIGS. 2 and 3) or in the vertical cross-sectional view of FIG. It is bent upward as shown in the figure.

At this time, the guide member 20 moves slightly along the shaft 27 through the groove 26, and the guide member 21 moves along its pin 27.
．． 28 moves slightly in the grooves 29, 29 in the side walls, so that the respective guide members 20, 21 move smoothly.

Further, the bending angle θ of the guide member 20.21 about the axis of the shaft 22 is determined by the rotation encoder 37 (see FIG. 5) built into the pressing portion driving motor 35. It is detected based on the amount.

A resistor heater 30 is disposed on the outer periphery of the shaft 22 and inside the guide member 21, and both end surfaces of the shaft 22 are brought into contact with a pair of electrode plates 31.31.
A voltage is applied to the resistor heater 30 through the resistor heater 31 and the shaft 22, so that the resistor heater 30 generates heat. The temperature of the resistor heater 30 is detected by a thermistor 38 (see FIG. 5) that is in contact with the heater 30, and can be set to any desired temperature eight times.

A paper discharge tray 112 is disposed in the opening guide portion 7 of the housing 2, that is, in the paper discharge portion.

FIG. 5 is a block diagram of the control system of the curl straightening device according to the present invention. The control unit 70 using a microcomputer includes a detection signal from the moisture content detector 72, a detection signal from the rotary encoder 17 for obtaining the rotational speed of the roller pair 11, and bending of the guide member 20° 21 of the pressing unit 19. A detection signal from the rotary encoder 37 to obtain the angle θ and a detection signal from the thermistor 38 to obtain the temperature of the resistor heater 30 are input, respectively.

FIG. 6 is a circuit diagram of the moisture content detector 72. The upper and lower rollers 109a and 109b are each made of conductive material, and the upper roller 109a is connected to a DC power supply (2). is connected to the lower roller 109b, and the resistor R and one input terminal of the voltage comparator 73 are connected to the lower roller 109b. A reference voltage V ref is applied to the other input terminal of the voltage comparator 73 , and the output signal of the voltage comparator 73 is input to the control section 70 . The timing roller 109a is fed out from the paper feed cassette.
When the paper P sandwiched between 109b and 109b is in a moisture-absorbing state, the volume resistance of the paper P becomes small, and as a result, the voltage
1 is large. On the other hand, when the paper P does not absorb moisture, the paper volume resistance becomes large and the voltage VI becomes small. In this way the voltage V.

The moisture content of the paper P replaced by the magnitude of is determined by the voltage comparator 7.
3 is compared with the reference voltage V ref. In this embodiment, a voltage corresponding to a water content of 5% is set as the reference voltage. That is, if ■, ≧Vref, the water content is 5% or more, and if V,<Vref, the water content is less than 5%, and each is input to the control unit 70 as a signal.

In this embodiment, the moisture content is detected from the abrasion resistance value of the paper as described above, but the present invention is not limited to this. For example, a microwave transmitter/receiver may be used,
The sensor may be detected based on the amount attenuated according to the water content of the paper when the microwave passes through the paper, and such a sensor can be arranged upstream of the timing roller 109 in the paper conveyance direction.

On the other hand, to the output side of the control section 70, a roller drive motor 16 that rotates the roller pair 11 and a pressing section drive motor 35 that bends the guide member 20, 21 are connected via drive circuits (not shown), respectively. Further, the resistor heater 30 is connected via the temperature adjustment section 71.

The control operation of the control unit 70 in the curl straightening device according to the present invention configured as described above first starts with the water content of the paper being conveyed to the timing roller 109 in accordance with the copying operation of the copying machine 100. is detected and input to the control unit 70. Normally, when RPC paper has a moisture content of about 5%, conditions such as the heating temperature of the fixing device are adjusted so that the paper discharged from the fixing device does not curl. However, the moisture content of paper changes depending on the humidity in the room where the copying machine is installed, and generally when the moisture content exceeds 5%, the paper ejected from the fixing device will back curl. This indicates a state in which the central portion protrudes toward the upper surface side, and conversely, when it is less than 5%, it indicates a face curl, that is, a state in which the central portion protrudes toward the lower surface side.

Therefore, the direction of curl occurring on the paper is predicted according to the moisture content of the paper immediately before the toner image is transferred, and the motor 35 is driven to bend the guide members 20 and 21 of the pressing section 19 in a direction that corrects this curl. At the same time, the temperature of the resistor heater 30 of the pressing part 19 is set to room temperature or a slightly higher temperature.

Then, the rotational speed ratio of the pair of rollers 8 and 11, which is a main part of the present invention, is determined according to the detected moisture content of the paper, and the motor 16 is driven to realize this.

During this time, the toner image is transferred to the sheet of paper in accordance with the above-described copying operation, and the sheet is transported to the fixing device 10 via the transport belt 7. The toner image is then melted and fixed onto the paper by the heat of the heater 46 of the roller pair 44, and the paper is loaded into the fixing device main body l from the roller pair 49. In this example,
A case of correcting paper with back curl will be explained. In this case, the pressing section 19 is set in the state shown in FIGS. 2 and 3, and the paper is conveyed along the path shown by the broken line in FIG. When the leading edge of the paper reaches roller pair 11, the rotation speed ratio is set so that the rotation speed of roller pair 11 is higher than the rotation speed of roller pair 8, so that the paper is pulled between roller pairs 8 and 11. Due to the applied force and the downward bending of the guide member 20.21, the paper is moved in the direction opposite to the curling direction of the guide member 20.2.
It is transported in a state where it is pressed at 1.

As a result, the paper is handled by the bent portions of the guide members 20 and 21, and the curls are more effectively corrected by the heat of the resistor heater 30 provided at the bent portions, and this correction force is applied at the rotational speed. It can be changed by changing the ratio, and the higher the rotation speed ratio of the roller pair 11 to the roller pair 8, the more the straightening force increases.

FIG. 7 shows the moisture content of the paper before the toner image is transferred and the roller pair 11 for the roller pair 8 in the apparatus of the present invention.
3 is a graph showing an example of the relationship between the rotational speed ratio and the bending direction of the pressing part 19. The vertical axis shows the rotation speed ratio, and the horizontal axis shows the water content and bending direction of the paper. As mentioned above, the fixing device 108 is normally set so that curling does not occur when the water content is 5%, so in this case the bending angle θ is 180 degrees, and the guide members 20 and 21 are approximately Make sure that they line up evenly and do not press the paper. Further, the rotational speed ratio at this time is approximately 1.1.

If the water content is higher than 5% (I see, the back curl tendency will be strong, so set the rotational speed ratio to 180 degrees or more, that is, with the guide members 20 and 21 protruding downward). On the other hand, when the moisture content is less than 5%, the tendency of face curl becomes stronger. In the protruding state, the rotational speed ratio is set to increase as the water content decreases.

In this embodiment, the configuration of the pressing part 19 is such that the guide members 20 and 21 are bent, but the configuration is not limited to this.
Any device that presses the paper in the curl correction direction for one hour is sufficient.

Further, in this embodiment, the paper after curl correction is ejected onto the paper ejection tray 112, but of course, the paper may be re-fed into the copying machine for double-sided copying or composite copying. Also good.

〔effect〕

As described above, in the curl straightening device according to the present invention, the paper is conveyed by being pressed in the curl straightening direction by the pressing section between the two roller pairs, and at this time, the rotational speed ratio of the roller pairs is changed. Accordingly, the tensile force of the paper can be set arbitrarily, and the handling force by the pressing section, that is, the amount of curl correction can be varied.

Since the rotational speed ratio of the roller pair can be clearly detected and determined and easily controlled, it is possible to specify the correct amount of correction according to the moisture content, so there is no inconvenience caused by excess or deficiency of the amount of correction. In addition, appropriate curl correction can be performed without being affected by the paper ejection speed of the fixing device.

Furthermore, when refeeding the paper after straightening and performing a copying operation, it is also possible, for example, to curl the paper after toner transfer in a direction that makes it easier to separate from the photoreceptor drum. For this reason, the present invention has excellent effects such as being able to set and apply an appropriate handling force that does not cause excessive curling.

[Brief explanation of the drawing]

FIG. 1 is a schematic internal structure diagram showing how a copying machine is equipped with a curl straightening device according to the present invention, FIG. 2 is a perspective view showing the internal structure of a fixing device and a curl straightening device main body, and FIGS. Figure 4 is a longitudinal cross-sectional view of the same, Figure 5 is a block diagram of the control system, Figure 6 is a circuit diagram of the moisture content detector, and Figure 7 shows the moisture content of the paper, the rotational speed ratio of the roller pair, and the pressing force. It is a graph which shows the relationship with the bending direction of the part. ■... Curl straightening device main body 8, 11... Roller pair 16... Roller drive motor 19... Pressing part 30
...Resistor heater 35...Pushing part drive motor 7
0...Control Department Time Applicant Minolta Camera Co., Ltd. Agent Patent Attorney Noboru Kono

Claims (1)

[Claims] 1. In a curl correction device that detects the moisture content of recording paper and changes the amount of correction for correcting curls that occur on the recording paper after toner image fixation based on the detection result. , two pairs of rollers that are arranged at an appropriate distance from each other and transport the recording paper in a pinched state between the respective rollers; A curl straightening device comprising: a pressing section that presses in a direction opposite to the curling direction; and means for changing the rotational speed ratio of the two roller pairs based on the detection result of the moisture content.