JP3639816B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus in which the types of recording paper that can be discharged by a paper discharge unit are limited.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is a finishing device that performs stapling processing on a sheet and is mainly connected to a copying machine. In addition, a copying machine has been developed which has setting means for setting the type of recording paper and has an automatic recording paper selection function for selecting a paper feed cassette in which a recording paper of the optimum type for copying is set. Further, in recent years, in order to minimize the occupied space at the time of installation, a copying machine has been developed in which a printed paper discharge tray is provided in the housing of the image output apparatus.
[0003]
[Problems to be solved by the invention]
When handling various types of recording paper as described above, the type of recording paper that can be discharged to the finishing apparatus becomes a problem. That is, depending on the internal structure of the finishing apparatus, there is a possibility that a paper jam will occur when a stiff recording paper is conveyed.
[0004]
[Means for Solving the Problems]
In view of the above problems, the image forming apparatus according to the present invention includes a plurality of paper feeding units that feed recording paper, the paper feeding unit, and the like, in order to cope with the limited types of recording paper that can be ejected by the paper ejection unit. Image forming means for forming an image on recording paper fed from paper means, a plurality of paper discharge means for discharging recording paper image-formed by the image forming means, and a plurality of paper feed means First discriminating means for discriminating the type of the recording paper set, acquisition means for acquiring the size of the recording paper set in each of the plurality of paper feeding means, and paper ejection among the paper ejection means An instruction unit for instructing a paper discharge unit to be set, a mode setting unit for setting an automatic paper selection mode for automatically determining which of the plurality of paper supply units to use, and the automatic paper selection mode are set. Instructed by the instruction means A selection unit that selects a sheet feeding unit according to the type of the recording sheet determined by the first determination unit and the size of the recording sheet acquired by the acquisition unit, The selecting means is to select a paper feeding means based on the type of recording paper that can be discharged to the paper discharging means instructed by the instruction means.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a copying machine showing the configuration of the present embodiment, and is a cross-sectional view showing the configuration of a reader unit 1 and a printer unit 2. The configuration and operation will be described below. Documents stacked on the document feeder 101 are sequentially conveyed onto the document table glass surface 102 one by one. When the document is conveyed to a predetermined position on the glass surface 102, the lamp 103 of the scanner unit is turned on and the scanner unit 104 is moved to irradiate the document. The reflected light of the document is input to a CCD image sensor unit 109 (hereinafter referred to as CCD) via mirrors 105 and 106 and a lens 107.
[0006]
FIG. 2 is a circuit block diagram showing a signal processing configuration of the reader unit 1, and FIG. 3 is a block diagram of a copying machine including the reader unit 1 and the printer unit 2. The configuration and operation will be described below. The reflected light of the original irradiated to the CCD 109 is photoelectrically converted here and converted into electrical signals of red, green and blue colors. The color information from the CCD 109 is amplified in accordance with the input signal level of the A / D converter 111 by the next amplifiers 110R, 110G, and 110B. The output signal from the A / D converter 111 is input to the shading circuit 112, where the uneven light distribution of the lamp 103 and the uneven sensitivity of the CCD are corrected. A signal from the shading circuit 112 is input to the Y signal / color detection circuit 113 and the external I / F switching circuit 119.
[0007]
The Y signal generation / color detection circuit 113 calculates the signal from the shading circuit 112 by the following formula to obtain the Y signal.
Y = 0.3R + 0.6G + 0.1B
Furthermore, a color detection circuit that separates the R, G, and B signals into seven colors and outputs signals for the respective colors is provided. An output signal from the Y signal generation / color detection circuit 113 is input to the scaling / repeat circuit 114. Depending on the scanning speed of the scanner unit 104, scaling in the sub-scanning direction is performed, and scaling in the main scanning direction is performed by the scaling circuit / repeat circuit 114. A plurality of identical images can be output by the scaling / repeat circuit 114. The contour / edge emphasis circuit 115 obtains edge emphasis and contour information by emphasizing the high frequency component of the signal from the scaling / repeat circuit 114. The signal from the contour / edge enhancement circuit 115 is input to the marker area determination / contour generation circuit 116 and the patterning / thickening / masking / trimming circuit 117.
[0008]
A marker area determination / contour generation circuit 116 reads a portion of a document written with a marker pen of a specified color, generates marker contour information, and the next patterning / thickening / masking / trimming circuit 117 generates the contour. Thicken, mask or trim from information. Further, patterning is performed by the color detection signal from the Y signal generation / color detection circuit 113.
[0009]
When the output signal from the patterning / thickening / masking / trimming circuit 117 is output to the printer unit 2, it is selected by the image data selector 118 described later, and is input to the laser driver circuit 119 for variously processed signals. The signal is converted into a signal for driving the laser. The output signal of the laser driver 119 is input to the printer 2 and image formation is performed as a visible image.
[0010]
The image memory 120 has a function of storing and reading out the image data sent from the image data selector 118 at a designated position in the image memory 120 according to an instruction from the CPU 122 by a method described later, rotation processing, and a function of synthesizing the image on the memory. Is going. The CPU circuit 122 controls the reader unit 1, and includes a ROM 124 that stores control programs, error processing programs, and the like, and a RAM 125 that is used to store setting information set in the work area of various programs and the operation unit 123. And various timer control units. The RAM 125 is backed up by a battery, and the information stored in the RAM 125 is retained even when the power of the copying machine is turned off.
[0011]
The operation unit 123 includes various key groups for instructing image operations such as image editing contents for the image processing of the reader unit 1 and the number of copies, a display unit for displaying contents at the time of operation, and the like. FIG. 4 shows details of the operation unit 123 of the present embodiment. The operation unit 123 includes a liquid crystal display unit composed of various keys and a dot matrix including a liquid crystal display device. 4 38 are arranged. LCD display 4 38 displays the device status, number of copies, magnification, selected recording paper, and various operation screens. You The
[0012]
Also, start key 4 03 is a key to start copying, reset Ki 4 02 is a key for returning the setting mode to the standard state. Also key group 4 05 is a numeric keypad from 0 to 9 for inputting the number of copies, zoom magnification, etc. and a clear key for clearing the input. Concentration key 4 07 is a key for increasing / decreasing the density, and the density adjusted by this is displayed. Area 4 41. Key 4 37 is a key for turning on / off the automatic density adjustment function and its display part. 4 06 is a key for selecting a paper feed cassette and automatic recording paper, and this selection state is displayed on the liquid crystal display section. 4 38. Ki - 4 10 is a key for setting the same size and standard size reduction / enlargement. . Ki - 4 Reference numeral 40 denotes a user mode key that enables individual setting by the user. By pressing the user mode key, a recording paper type to be described later is set.
[0013]
An image storing method and a reading method will be described with reference to FIGS. FIG. 5 (1) shows one storage capacity of the image memory 120. In this embodiment, A3 size storage is possible, and it is composed of 4661 vertical x 6596 bits vertical. As shown in FIG. 6, this storage area is configured to store 100 images as one image layout area and an image storage area. Next, an example in which a document image is stored in the image memory 120 is shown using FIG. The original placed as shown in (2a) is sequentially read in the direction of the arrow as shown in the figure. First, when the first line is read, the address (0, 0) is set as shown in (2b). When the X-direction count-up and the Y-direction count-up are designated at the start position, and the first line is read first, the Y-direction counter is sequentially written in the (0,4661) direction. Next, when the second line is read, the counter in the X direction is incremented and written sequentially from the (1, 0) address to the (1, 4661) address direction. Next, when the third line is read, the counter in the X direction is incremented and written from the (2, 0) address to the (2, 4661) address. In this manner, reading and writing are repeated, and writing is performed up to (3297, 4661).
[0014]
Next, the process of reading the image data written in the memory using (2) will be described using (3) and (4). As shown in (3a), first, the data stored in (3) is designated with the (3271, 0) address as the start position, the X counter counting down sequentially, and the Y direction counter counting up as shown in (3a). Then, the X counter is read while sequentially decreasing in the (0, 0) direction. Next, the Y counter is incremented and the second line is read out, reading out from the (3297, 1) address in the direction of (0, 1), and reading out the image in (3b) sequentially in this way. it can.
[0015]
In (4), as shown in (4b), for the stored data, first, the address of (0, 0) is set to the start position for the first line, the X-direction counter is up, and the Y-direction counter is down. Then, the Y counter is read while sequentially increasing in the direction of (0,4661). Next, the X counter is incremented, the second line is read, the (1, 0) address is read in the (1, 4661) direction, and the reading of (4b) can be performed by sequentially reading in this way. it can. Accordingly, by reading the A4 width document shown in (2a) in the direction (3), the image can be read without rotating.
[0016]
Next, the image layout will be described. As described above, the individually stored images such as (5a) and (5b) are read out, and the images are written at desired positions in the image memory 120, whereby different original images are displayed in the image memory 120 as shown in (5c). Can be synthesized above.
[0017]
The configuration and operation of the printer unit 2 will be described with reference to FIG. The image signal input to the printer unit 2 is converted into an optical signal modulated by the exposure control unit 201 and irradiates the photoconductor 202. The latent image formed on the photosensitive member 202 by the irradiation light is developed by the developing unit 203. The recording paper is transported from the recording paper cassettes 214 to 217 together with the leading edge of the developed image, and the developed image is transferred by the transfer unit 206. The transferred image is fixed on the recording paper by the fixing unit 207 and then discharged onto one of the discharge trays 210, 211, and 305. When paper is discharged to the paper discharge tray 210, the flapper 240 is inclined to the opposite side of the paper discharge tray 210 to discharge paper to the paper 210. When paper is discharged to the paper discharge tray 211, the flapper 241 is tilted to the opposite side of the paper discharge tray 211 so that paper can be passed through the paper discharge tray 211. In addition, when paper is discharged to the paper discharge tray 305 in a face-up state, the paper is discharged onto the paper discharge tray 305 by tilting the flapper 241 toward the paper discharge tray 211. In addition, when paper is discharged to the paper discharge tray 305 in a face-down state, the recording paper is once guided to the paper discharge tray 211 side by tilting the flapper 241 to the side opposite to the paper discharge tray 211. After that, the sheet is switched back and discharged to the discharge tray 305 via the discharge roller 212. The recording paper discharged from the paper discharge tray 305 is delivered to the finisher 3 and passes through the punch unit 301. When the punch function is activated, the recording paper is punched, passed to the stapler 302, and stapled when stapled. . The recording sheet that has passed through the stapler is discharged to the discharge tray 305 of the finisher.
[0018]
In order to prevent a paper jam, the type of recording paper that can be discharged to the discharge trays 210, 211, and 305 is determined for each discharge tray and is stored in the ROM 124 or RAM 125. Specifically, the ROM 124 or the RAM 125 stores that the plain paper and the recycled paper can be ejected in the paper ejection trays 211 and 305, and the plain paper, the recycled paper, the colored paper, and the punch are stored in the paper ejection tray 210. It is stored that paper, label paper, thick paper, OHP paper, letterhead paper, and second original drawing paper (thin paper) can be discharged. In this way, the types of recording paper that can be discharged to the discharge trays 211 and 305 are limited.
[0019]
Next, a method for outputting sequentially read images on both sides of one recording sheet will be described. The recording paper fixed by the fixing unit 207 is once transported to the paper discharge tray 210, and then transported to the refeeding recording paper stacking unit 210 via the flapper 242 with the recording paper transport direction reversed. When the next original is prepared, the original image is read in the same manner as in the above process, but the recording paper is fed from the re-feeding recording paper stacking section 210. Two original images can be output.
[0020]
Next, a method for setting the type of recording paper will be described with reference to FIG. Assume that B4 size is stored in the paper feed cassette 214, A4 size is stored in the paper feed cassette 215, A4 size is stored in the paper feed cassette 216, and A4 size recording paper is stored in the paper feed cassette 217. User mode key 4 When 40 is pressed, the operation screen shown in FIG. 7A is displayed on the liquid crystal display unit 238. A key 701 is a common function setting key for performing common settings for machine operations. A key 702 is a key set for the copy function, and sets ON / OFF of auto rotation and the like. A key 703 is for adjustment cleaning, and sets zoom adjustment and the like. A key 704 is a key related to a timer, and the date and time can be set by pressing this key. When the key 701 is pressed, an operation screen shown in FIG. 7 (2) is displayed. A key 706 is a key for setting the type of recording paper. When this key is pressed, an operation screen shown in FIG. 7 (3) is displayed. By pressing keys 707-2 to 707-5 on this screen, the operation screen shown in FIG. 7 (4) is displayed, and the type of recording paper for each paper feed cassette can be set. . Here, it is assumed that the paper feed cassette 214 is set to plain paper. Similarly, it is assumed that the paper feed cassette 215 is set to colored paper, the paper feed cassette 216 is set to recycled paper, and the paper feed cassette 217 is set to plain paper. Reference numeral 707-6 denotes a key for setting the priority order of recording paper types. When this key 707-6 is pressed, a screen shown in FIG. 7 (5) is displayed. On this screen, the priority order in the automatic paper feed selection of each recording paper type can be set using the numeric keypad 405. Here, it is assumed that the priority is set to 1 for plain paper, 2 for recycled paper, 3 for colored paper, and 4 for thick paper. A key 707-7 is used to set whether or not to change the paper cassette when there is no recording paper. The above settings are stored in the RAM 125.
[0021]
The operation screen shown in FIG. 7 (8) is a screen for setting a dedicated tray. The tray A corresponds to the paper discharge tray 305, the tray B corresponds to the paper discharge tray 210, and the tray C corresponds to the paper discharge tray 211. Here, in the copy mode, the sheet is discharged to tray A (discharge tray 305) and tray B (discharge tray 210). In the facsimile mode, the paper is discharged to the tray B (paper discharge tray 210), and in the printer mode, the paper is discharged to the tray C (paper discharge tray 211). Information regarding the setting of the discharge tray for each mode is stored in the RAM 125.
[0022]
Next, the operation using the setting of the recording paper type will be described with reference to the flowcharts of FIGS. A program for executing the following flowchart is stored in the ROM 124 and read and executed by the CPU 122. First, it is determined whether or not there is a document by a document detection sensor (not shown) installed on the document tray of the document feeder 101 shown in FIG. 1 (8-1). At this time, if there is no document on the document table tray, the size detected by the size detection sensor on the document table (not shown) is read from the RAM 125 (8-4). When there is a document in the document feeder 101, the document is fed (8-2), and the document size is detected based on the width of the document guide and the length of the document conveyed to the document glass (8-3). . Here, since the document guide width is 297 mm and the length of the conveyed document is 210 mm, it is detected that the document size is A4.
[0023]
Next, the optimum recording paper for the document A4 is selected. First, the sizes of all paper feed cassettes are acquired (8-5). It is determined whether or not there is a paper feed cassette to be automatically selected (8-6). Here, since the recording paper sizes in the paper feeding cassettes 214 to 217 are B4, A4, A4, and A4, respectively, first, the paper feeding cassettes 215, 216, and 217 are targets for automatic recording paper selection. In this, it is detected whether there is actually a recording sheet (8-6). Since each sheet cassette contains recording paper, it is selected (8-7). If there is no recording paper, it is excluded from the paper feed target (8-8). This determination is performed for all the paper feed cassettes (8-9). If there is no paper feed cassette to be fed (8-10), the operation unit 123 displays that there is no optimum recording paper (8-19), and the operation is terminated.
[0024]
Next, with reference to the paper discharge tray set on the screen of FIG. 7 (8) and stored in the RAM 125, a paper discharge tray to be discharged is determined, and a recording paper type that can be discharged to the paper discharge tray is determined in the ROM 124. Or it reads from RAM125 (8-11). When the stapling process is set in the copy mode, the paper discharge tray to be discharged is determined as the paper discharge tray 305. The types of recording paper that can be discharged to the paper discharge tray 305 are plain paper and recycled paper.
[0025]
Next, the type of recording paper in the paper feeding cassettes 215, 216, and 217 is read from the RAM 125. Here, the paper cassette 215 is colored paper, the paper cassette 216 is recycled paper, and the paper cassette 217 is plain paper. At this time, it is determined whether the recording paper type of each paper feed cassette matches the type of recording paper that can be discharged from the paper discharge tray 305 (8-12). Since the paper feed cassette 215 is colored paper, it is excluded from the selection target (8-14). The paper feed cassettes 216 and 217 meet this condition (8-13). When discrimination for all target paper feed cassettes is completed (8-15), a paper feed that can be selected based on the type of recording paper in the paper feed cassette and the type of recording paper that can be discharged to the designated paper discharge tray. It is determined whether or not there is a paper cassette (8-16). If there is no paper feed cassette to be fed, the fact that there is no optimum recording paper is displayed on the operation unit 123 (8-19), and the operation is terminated.
[0026]
Next, the priority set for the type of recording paper in each paper cassette is read from the RAM 125 (8-17). Here, priority 2 is given because the paper feed cassette 216 is recycled paper, and priority 1 is given because the paper feed cassette 217 is plain paper. Among them, the paper feed cassette 217 having the highest priority is selected as the optimum paper feed cassette (8-18), and copying is started (8-20). In this manner, the paper feed cassette is automatically selected based on the information on the type of recording paper that can be ejected to the paper ejection tray to be ejected.
[0027]
Next, with reference to FIG. 9, automatic switching of the paper feeding cassette when the paper feeding cassette selected as optimum is out of paper will be described. Here, it is assumed that the paper cassette 214 contains B4, the paper cassette 215 contains A4, the paper cassette 216 contains A4, and the paper cassette 217 contains A4 recording paper. In the operation unit 7-3, the recording paper type of each paper cassette is set as plain paper for the paper cassette 214, colored paper for the paper cassette 215, plain paper for the paper cassette 216, and plain paper for the paper cassette 217. To do.
[0028]
When 100 sheets of A4 size original are copied, 100 sheets are stored in the sheet cassette 214, 20 sheets in the sheet cassette 215, 50 sheets in the sheet cassette 216, and 100 sheets in the sheet cassette 217. Suppose that copying started. First, when copying is started (9-1), it is determined whether copying has been completed (9-2). If it has not been completed, it is determined whether there is a recording sheet in the currently fed paper cassette. (9-5). If there is, the copy operation is continued. If not, it is determined whether there is another sheet cassette that can be selected based on the information obtained in steps 8-6 to 8-9 (9-6). Here, if there is no paper feed cassette to be fed, it is displayed on the operation unit 123 that there is no optimum recording paper (9-20), and the operation is terminated.
[0029]
Next, with reference to the paper discharge tray set on the screen of FIG. 7 (8) and stored in the RAM 125, a paper discharge tray to be discharged is determined, and a recording paper type that can be discharged to the paper discharge tray is determined in the ROM 124. Or it reads from RAM125 (9-7). Here, the paper discharge tray to be discharged is the paper discharge tray 305, and the types of recording paper that can be discharged to the paper discharge tray 305 are plain paper and recycled paper.
[0030]
Next, the type of recording paper in the paper feeding cassettes 215, 216, and 217 is read from the RAM 125. Here, the paper feed cassette 215 is colored paper, the paper feed cassette 216 is plain paper, and the paper feed cassette 217 is plain paper. At this time, it is determined whether the type of recording paper in each paper feed cassette matches the type of recording paper that can be discharged from the paper discharge tray 305 (9-8). Since the paper feed cassette 215 is colored paper, it is excluded from the selection target (9-10). The paper feed cassettes 216 and 217 meet this condition (9-9). When discrimination for all target paper feed cassettes is completed (9-11), a paper feed that can be selected based on the type of recording paper in the paper feed cassette and the type of recording paper that can be discharged to the designated paper discharge tray. It is determined whether or not there is a paper cassette (9-12). If there is no paper feed cassette to be fed, the fact that there is no optimum recording paper is displayed on the operation unit 123 (9-20), and the operation is terminated. Here, the paper feed cassettes 216 and 217 are paper feed cassettes to be fed.
[0031]
Next, the priority set for the type of recording paper in each paper feed cassette is read from the RAM 125 (9-13). Here, the priority is 1 because the paper feed cassette 216 is plain paper, and the priority is 1 because the paper feed cassette 217 is plain paper. Of these, the paper feed cassette 216 has a shorter transport path as shown in FIG. 1, so the paper feed cassette 216 is selected as the optimum paper feed cassette (9-14), and copying is started (9-15). ).
[0032]
At this time, the paper cassette is stored in the paper cassette 216 as A4 size and the recording paper type is plain paper. When copying is started, 20 sheets are fed from the sheet feeding cassette 216. After 20 sheets have been fed, since there is no recording paper in the paper feed cassette 216 (9-17), a search is made for other paper feed cassettes that can feed paper (9-18). A4 size paper feed cassettes containing recording paper are a paper feed cassette 215 and a paper feed cassette 217. At this time, the type of recording paper in the paper feeding cassette 215 is colored paper, the paper feeding cassette 217 is plain paper, and the type of recording paper currently fed is plain paper, so the paper feeding cassette 217 is selected (9 -19) and continue feeding. After feeding 50 sheets from the paper feed cassette 217, the paper feed cassette 217 also runs out of recording paper.
[0033]
Next, the A4 size paper feed cassette is the paper feed cassette 215. Since the recording paper type currently fed is plain paper, it does not match the recording paper type of the paper feed cassette 215 in which colored paper is set (9-18). Since the paper feed cassette 215 is colored paper, if this is fed, it may cause a paper jam, so the paper feed operation is stopped and the operation unit 123 displays that the A4 plain paper is gone (9-20).
Next, with reference to FIG. 10, the discharge tray switching when the recording sheets in the discharge tray become full will be described. The paper discharge trays 210 and 305 are selected, the second original drawing (thin paper) of the paper feed cassette 215 is selected, the output number is 999 sheets, and 500 sheets are discharged. The discharge tray 305 detects the full load when 500 sheets of recording paper are stacked (10-1). Therefore, a paper discharge tray capable of continuing paper discharge next is searched (10-2). The paper discharge trays 210 and 305 are selected, and the type of recording paper that can be discharged to the paper discharge tray 305 is determined (10-3). The discharge tray 305 can discharge only plain paper and recycled paper, and the second original drawing (thin paper) discharged to the discharge tray 210 cannot be discharged to the discharge tray 305. Therefore, it is determined that it is impossible to change to the paper discharge tray 305 (10-4), the paper supply is stopped, and the operation unit 123 displays that the paper discharge tray is full (10-7). ) The operation is suspended until the user removes the recording paper from the paper discharge tray 210.
[0034]
However, when plain paper is contained in the paper feed cassette 215, the paper discharge trays 210 and 305 may be selected. This case will be described. The number of output copies is 999, plain paper is set in the paper feed cassette 215, and 500 copies are made. The discharge tray 305 detects a full load of 500 sheets. Therefore, a paper discharge tray capable of continuing the paper discharge next is searched. The paper discharge trays 210 and 305 are selected, and the type of recording paper that can be discharged to the paper discharge tray 305 is determined. The paper discharge tray 305 can discharge only plain paper and recycled paper, and the normal paper discharged to the paper discharge tray 210 can be discharged to the paper discharge tray 305. Therefore, the sheet is changed to the sheet discharge tray 305 and discharged (10-5), the remaining 499 sheets are discharged, and the operation ends.
[0035]
Next, the operation when the stapling device and the punch punching device are connected will be described with reference to FIG. As shown in FIG. 1, the stapling device and the punch punching device are the finishing device 3 connected to the paper discharge tray 305. Assume that the paper cassette 214 contains B4, the paper cassette 215 contains A4, the paper cassette 216 contains A4, and the paper cassette 217 contains A4 paper. In the operation unit 123, the recording paper type of each paper cassette is set as plain paper in the paper cassette 214, thick paper in the paper cassette 215, plain paper in the paper cassette 216, and plain paper in the paper cassette 217. And Assume that the paper feed cassette 215 is selected and punch punching is set for 100 copies of the original A4.
[0036]
First, the type of recording paper that can be discharged to the punching device is confirmed (11-10). Since the punch punching device is connected to the paper discharge tray 305, the types of recording paper that can be discharged to the paper discharge tray 305 are plain paper and recycled paper. Since the selected paper feed cassette 215 is thick paper, it cannot be discharged onto the paper discharge tray 305. Therefore, the operation unit 123 displays “Punching is not possible with this recording paper type” (11-11), and the operation is not enabled.
[0037]
Further, the finishing device may have a restriction on the type of recording paper without limiting the type of recording paper for the paper discharge tray 305. The same applies to this case, and instead of the limitation of the discharge tray 305, if the limitation of the discharge recording paper type of the finishing device is applied and the finishing device 3 cannot discharge the thick paper, “ “Cannot punch” is displayed.
[0038]
Next, a case where a paper feed cassette is automatically selected when a stapling device and a punch punching device are connected will be described with reference to FIG. First, it is determined whether there is a document by a document detection sensor (not shown) installed on the document tray of the document feeder 101 shown in FIG. At this time, if there is no document on the document tray, the size detected by the size detection sensor on the document table (not shown) is read from the RAM 125. When there is a document in the document feeder 101, the document is fed, and the document size is detected based on the width of the document guide and the length of the document conveyed to the document glass. Here, since the guide width of the document is 297 mm and the length of the document transported is 210 mm, it is detected that the document size is A4 (12-1).
[0039]
Next, the optimum recording paper for the document A4 is selected. First, the sizes of all paper feed cassettes are acquired (12-2). It is determined whether or not there is a paper feed cassette to be automatically selected (12-3). Here, since the recording paper sizes in the paper feeding cassettes 214 to 217 are B4, A4, A4, and A4, respectively, first, the paper feeding cassettes 215, 216, and 217 are targets for automatic recording paper selection. In this, it is detected whether there is actually a recording sheet (12-3). Since each sheet cassette contains recording paper, it is selected (12-4). If there is no recording paper, it is excluded from the paper feed target (12-5). This determination is performed for all the paper feed cassettes (12-6). If there is no paper feed cassette to be fed (12-7), the operation unit 123 displays that there is no optimum recording paper (12-25), and the operation is terminated.
[0040]
Next, with reference to the paper discharge tray set on the screen of FIG. 7 (8) and stored in the RAM 125, a paper discharge tray to be discharged is determined, and a recording paper type that can be discharged to the paper discharge tray is determined in the ROM 124. Or it reads from RAM125 (12-8). A paper discharge tray 210 is set as a tray to be discharged. However, the finishing device 3 is connected to the paper discharge tray 305, and finishing cannot be performed when the paper is discharged to the paper discharge tray 210. Therefore, the paper discharge tray is changed to 305 (12-30). The types of recording paper that can be discharged to the paper discharge tray 305 are plain paper and recycled paper. For this reason, plain paper and recycled paper are stored as recording paper types that can be discharged.
[0041]
Next, the type of recording paper in the paper feeding cassettes 215, 216, and 217 is read from the RAM 125. The paper feed cassette 215 is colored paper, the paper feed cassette 216 is recycled paper, and the paper feed cassette 217 is plain paper. At this time, it is determined whether the recording paper type of each paper cassette matches the type of recording paper that can be discharged from the paper discharge tray 3 (12-9). At this time, since the paper feed cassette 215 is colored paper, it is not selected (12-11). The paper feed cassettes 216 and 217 both meet this condition. If there is no paper feed cassette to be fed here, it is displayed on the operation unit 123 that there is no optimum recording paper (12-25), and the operation is terminated.
[0042]
Next, the priority set for the type of recording paper in each paper feed cassette is read from the RAM 125 (12-18). The priority is 2 because the paper feed cassette 216 is recycled paper, and the priority is 1 because the paper feed cassette 217 is plain paper. Among them, the paper feed cassette 217 having the highest priority is selected as the optimum paper feed cassette (12-19), and copying is started.
[0043]
Further, the finishing device 3 may have a restriction on the type of recording paper without restricting the type of recording paper for the paper discharge tray 305. The same applies to this case. Instead of the limitation of the discharge tray 305, the limitation of the type of discharged recording paper of the finishing device 3 is applied (12-12), and if the finishing device cannot discharge the colored paper, it is normal. Paper is selected (12-14).
[0044]
In addition, if there is no recording paper in the paper feeding cassette that is currently feeding paper during finishing. Considering the finish after finishing, since the recording paper that can be passed through the finishing device and the paper discharge tray is limited, it is determined whether or not the same type of recording paper can be fed. Since the type of recording paper being fed is plain paper, there is no paper feed cassette corresponding to plain paper. Therefore, in this case, paper feeding is stopped and the operation unit 123 displays that there is no recording paper.
[0045]
As described above, the types of recording paper have been described as plain paper, recycled paper, and colored paper, but are not limited thereto. In addition, although it has been described that thick paper is not selected in the case of finishing punch holes, the present invention is not limited to this example, and in the case of OHP paper or second original drawing paper that causes problems when stapling is performed. Not selected. The type of recording paper that causes a problem when finishing is not selected.
[0046]
【The invention's effect】
As described above, according to the present invention, a plurality of paper feeding units that feed recording paper, an image forming unit that forms an image on the recording paper fed from the paper feeding unit, and the image forming unit A plurality of paper discharge means for discharging the recording paper on which an image is formed, a first determination means for determining the type of recording paper set in each of the plurality of paper supply means, and the plurality of paper supply means An acquisition means for acquiring the size of the recording paper set in each of the plurality of paper discharge means, an instruction means for instructing a paper discharge means to be discharged among the plurality of paper discharge means, and any of the plurality of paper supply means A mode setting means for setting an automatic paper selection mode for automatically determining whether the automatic paper selection mode is set, a paper discharge means instructed by the instruction means and the first determination means when the automatic paper selection mode is set. The type of recording paper determined and the Selecting means for selecting a paper feeding means in accordance with the size of the recording paper acquired by the means, the selecting means for recording paper that can be discharged to the paper discharge means designated by the instruction means. Since the paper feeding unit is selected based on the type, the paper feeding unit that stores the type of recording paper suitable for the selected paper discharging unit is automatically selected, and it is assumed that a paper jam will occur in the selected paper discharging unit. Can be prevented.
[Brief description of the drawings]
FIG. 1 is an overall view of an image forming apparatus.
FIG. 2 is a block diagram of a reader unit 1;
FIG. 3 is a block diagram of the image forming apparatus.
4 is an external view of an operation unit 123. FIG.
FIG. 5 is an explanatory diagram of an image storing method and a reading method.
6 is an explanatory diagram of an image memory 120. FIG.
7 is a diagram of each operation screen in the operation unit 123. FIG.
FIG. 8 is a flowchart of automatic sheet cassette selection according to the embodiment of the present invention.
FIG. 9 is a flowchart of automatic switching of a paper feed cassette when the paper feed cassette according to the embodiment of the present invention runs out of paper.
FIG. 10 is a flowchart for switching the discharge tray when the discharge tray is full according to the embodiment of the present invention.
FIG. 11 is a flowchart when the finishing device 3 of the embodiment of the present invention is connected.
FIG. 12 is a flowchart of automatic selection of a paper feed cassette when the finishing device 3 of the embodiment of the present invention is connected.
[Explanation of symbols]
1 Reader section
2 Printer section
3 Finishing equipment
101 Document feeder
102 Platen glass
214 to 217 Paper cassette
240, 241 Flapper
210, 211 Output tray
305 Output tray

Claims (8)

A plurality of paper feeding means for feeding recording paper;
Image forming means for forming an image on recording paper fed from the paper feeding means;
A plurality of paper discharge means for discharging the recording paper image-formed by the image forming means;
First discriminating means for discriminating the type of recording paper set in each of the plurality of paper feeding means;
Obtaining means for obtaining the size of the recording paper set in each of the plurality of paper feeding means;
An instruction means for instructing a paper discharge means to be discharged among the plurality of paper discharge means;
Mode setting means for setting an automatic paper selection mode for automatically determining which of the plurality of paper feeding means is used;
When the automatic paper selection mode is set, the type of recording paper determined by the paper discharge means specified by the instruction means and the first determination means, and the size of the recording paper acquired by the acquisition means depending on the preparative includes a selection means for selecting the sheet feeding means, said selection means, the feeding means based on the type of discharge can recording paper sheet discharge means is instructed by said instructing means An image forming apparatus comprising: selecting an image forming apparatus. Storage means for storing information on the types of recording paper that can be discharged to each of the plurality of paper discharge means;
The selection unit selects a sheet feeding unit in which a recording sheet of a type that can be ejected to the sheet ejection unit instructed by the instruction unit is selected based on information stored in the storage unit. The image forming apparatus according to claim 1.   In accordance with the fact that there is no paper feed means in which the type of recording paper that can be ejected is set in the paper ejection means instructed by the instruction means, there is provided display means for displaying that there is no optimum recording paper. The image forming apparatus according to claim 2. Having setting means for setting the priority order of the types of recording paper;
The image forming apparatus according to claim 3, wherein the selection unit selects a sheet feeding unit based on the priority set by the setting unit. Setting means for setting the type of recording paper set in each of the plurality of paper feeding means;
The image forming apparatus according to claim 1, wherein the first determination unit determines the type of recording paper according to the setting by the setting unit. A second discriminating means for discriminating the size of an image to be imaged;
The image forming apparatus according to claim 1, wherein the selection unit selects a sheet feeding unit based on an image size determined by the second determination unit. The image forming apparatus can execute at least two modes of a copy mode, a facsimile mode, and a printer mode,
Setting means for setting a paper discharge means for discharging the recording paper on which an image is formed in the mode;
The image forming apparatus according to claim 1, wherein the instruction unit instructs the paper discharge unit according to the setting by the setting unit. A full load detecting means for detecting that the recording paper discharged to the paper discharge means is full;
When the full load is detected by the full load detection means, if there is another paper discharge means capable of discharging the type of recording paper being fed, it is switched to the other discharge means, and the type of recording paper being fed is changed. If there is no other paper discharge means that can be discharged, the control means for stopping the recording paper feeding and giving a warning,
The image forming apparatus according to claim 1, wherein a.

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