JPH0672562A - Paper size detection device - Google Patents

Abstract

PURPOSE:To detect paper size accurately with simple structure without preparing an exclusive cassette per paper by providing a paper size detection means which detects paper size based on a first electrical signal output by a paper width setting means and a second electrical signal output by a paper length setting means. CONSTITUTION:Width of paper 2, namely, main scan size of the paper 2, is operated and detected based on output value which detects the minimum and maximum size stored in RAM 209 and output value which detects a main scan detection section 8 when fringe position of the paper 2 set in a cassette 1 in the direction of width is set by side setting plates 3a, 3b. In a sub-scan detection section 6, the length of the paper 2 is divided into three regions, and sub-scan detection guides 5a, 5b enter different switch conditions depending on switch SW1 and switch SW2 and output a second electrical signal. Paper to be divided into groups, corresponding to this condition, is specified. Size of paper is detected based on main scan size and sub-scan size of the paper 2 thus detected.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper size detecting device, and more particularly to a paper size detecting device for detecting the size of paper stored in a paper cassette.

[0002]

2. Description of the Related Art With the widespread use of OA equipment in recent years, an image processing apparatus such as a copying machine having an advanced image processing function has come into general use. In this type of image processing apparatus, a center moving function that automatically moves the processed image of the document to the center of the paper, an automatic scaling function that automatically scales the processed image according to the size of the paper, Image processing is performed by activating the automatic paper selection function that detects the size of the paper and automatically selects the paper that matches the detected size. In this case, it is necessary to determine the size of the image to be processed and the size of the paper before the image processing.

Conventionally, the paper size is determined in advance by providing a unique switch corresponding to the size of the paper stored in the cassette in which the paper is stored, and mounting the cassette in the apparatus. It was done by the electric signal output from the switch.

[0004]

Paper sizes commonly used in image processing apparatuses include postcard sizes, A5, A4,
In addition to A3, B5, B4, etc., there is a distinction between vertical writing and horizontal writing in each size, and there is a special size used in a specific country, and there are various types of paper sizes used. . In addition, the user may use a special size paper independently. In the above-described conventional paper size detection device, in order to detect various kinds of paper sizes in this way, it is necessary to prepare a large number of cassettes each having a switch unique to each paper size, and the image processing device itself. Becomes large, the cassette replacement operation becomes complicated and the operation becomes complicated, and there is a problem in manufacturing cost.

The present invention has been made in view of the current state of the paper size detecting apparatus of this type as described above, and an object thereof is to use many kinds of cassettes according to the paper size without using many kinds of cassettes. An object of the present invention is to provide a paper size detection device having a simple structure capable of detecting the paper size of the paper.

[0006]

In order to achieve the above object, the present invention provides a paper width setting means for setting an edge position of a paper in the width direction, and a paper width setting means for setting the paper width setting means in the width direction. Paper width detection means for outputting a first electric signal corresponding to the edge position, paper length setting means for setting the edge position in the length direction of the paper, and the length set by the paper length setting means Paper length detecting means for outputting a second electric signal corresponding to the edge position in the direction, and paper size detecting means for detecting the size of the paper based on the first electric signal and the second electric signal. And is configured to have.

Further, in order to achieve the above object, in the present invention, the first electric signal output by the paper width detecting means is a continuous electric signal for designating the paper width, and the paper length detecting means is The second electric signal to be output may be an electric signal that specifies a standard size paper included in a corresponding area of the paper length area divided into a plurality of areas.

[0008]

In the present invention having such a configuration, the paper width setting means sets the edge position of the paper in the width direction, and the paper width detection means sets the edge position of the paper in the width direction set by the paper width setting means. To output a first electrical signal corresponding to. On the other hand, the paper length setting means sets the edge position in the length direction of the paper, and the paper length detection means sets the second electrical position corresponding to the edge position in the length direction of the paper set by the paper length setting means. Output a signal. Then, the paper size detecting means detects the size of the paper based on the first electric signal and the second electric signal.

Further, in the present invention, the paper width setting means sets the edge position of the paper in the width direction, and the paper width detection means corresponds to the edge position of the paper in the width direction set by the paper width setting means. , A continuous electric signal that specifies the paper width is output as the first electric signal. On the other hand, the paper length setting means sets the edge position in the length direction of the paper, and the paper length detection means sets a plurality of edge positions in the length direction of the paper set by the paper length setting means. A second electric signal designating a standard size paper included in the corresponding area of the divided paper length area is output. Then, the paper size detecting means is configured to detect the first electric signal and the second electric signal.
The size of the paper is detected based on the electric signal of. In this case, when a plurality of standard sheets are included in the corresponding area of the sheet length area divided into a plurality of sheets, the final detection is performed by the priority order given to these standard sheets.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. 1 to 9. First, the first embodiment will be described.

FIG. 2 is a block diagram showing the overall construction of the first embodiment. In FIG. 2, reference numeral 1 denotes a cassette main body for accommodating sheets. One end of this cassette main body 1 is grounded and the other end is grounded. A main scanning detector 8 is provided which comprises a volume 202 to which a bias voltage of 5.5 V is applied and which outputs a first electric signal corresponding to the edge position in the width direction of the paper. The main scanning detector 8 converts the analog signal from the volume 202 into a digital signal of 8 bits A.
CPU2 that controls the entire system via the D / D converter 206
It is connected to 07. The CPU 207 has a ROM 208 storing a control program, a RAM 209 for writing and reading various data during control operation, and an operation display for displaying input instruction data and setting status data during device adjustment or control. The part 211 is connected. The RAM 209 is provided with a backup power supply so that data is not lost when the power is cut off. Also, CPU2
07, the switch SW1 via the I / O circuit 210,
A sub-scan length detection unit 6 having a SW2 is connected, and the sub-scan length detection unit 6 is connected to the cassette body 1.

FIG. 1 is an explanatory view showing the structure of the main part of the first embodiment, in which a sheet 2 is placed on the cassette body 1, and the edge of the sheet 2 in the width direction is contacted. Side setting plate 3a for setting the widthwise edge position of the sheet 2,
3b is provided. These side setting plates 3a and 3b have
A main scanning detector 8 is connected via a main scanning detection guide 7. Further, there is provided a trailing edge setting plate 4 which is arranged in contact with the edge of the sheet 2 in the lengthwise direction and which sets the position of the sheet 2 in the lengthwise direction. Guide 5
The sub-scanning detection unit 6 is connected via a5b.

In this sub-scanning detection section 6, the position of the rear end setting plate 4 is at the position of 4a (sub-scanning length 335 mm or more), 4b.
(Sub scanning length 232 mm to 335 mm) and 4c (sub scanning length 232 mm or less)
The length of the paper 2 is divided into three areas, and the sub-scanning detection guide 5
The a5b is set to have a different detection state in each area.

FIG. 3 is an explanatory view showing the construction of the main part of the main scanning detecting section 8. One end of the main scanning detecting guide 7 is connected to the side setting plates 3a and 3b, and the other end of the main scanning detecting guide 7 is engaged. An artificial tooth G1 is formed, and the reduction gear 304 is attached to the engaging tooth G1.
And the reduction gear 303 is engaged with the reduction gear 304. The reduction gear 303 is engaged with the engagement tooth G2 formed on the guide 302, and the slider of the volume 202 is connected to the end of the guide 302. The volume 202 slides in the direction of the arrow in FIG. 3 to output a generated voltage corresponding to the position of the slider, and is used which has an excellent linear control of the generated voltage with respect to the slide distance. Further, the reduction gears 303, 304 are arranged so that the operation range of the main scanning detection guide 7 by the operation of the side setting plates 3a, 3b is about 90% of the operable range on the volume 202.
It has been adjusted in. In this way, when the side setting plates 3a and 3b set the edge position of the paper 2 in the width direction,
A first electric signal corresponding to the edge position is output from the volume 202.

Next, the paper size detecting operation in the first embodiment having such a structure will be described first with respect to the paper width selecting operation.

FIG. 4 is a flow chart showing the preliminary data writing operation of the paper width detecting operation according to the first embodiment.
A sheet 2 having a minimum settable size (A5: width 148.5 mm) is placed on the cassette body 1 as shown in FIG. 1, and the side setting plates 3a and 3b are brought into contact with the edge of the sheet 2 in the width direction. Then, the widthwise edge position of the sheet 2 is set. The main scanning detection guide 7 is moved by the position setting by the side setting plates 3a and 3b, and the minimum size detection signal is input from the main scanning detection unit 8 to the CPU 207 via the A / D converter 206. To be done. Therefore, in step S401, the CPU 207 outputs the detection signal of the minimum size to RA.
Store in M209. Then, the sheet 2 of the maximum size (A4: width 297 mm) that can be set is placed on the cassette main body 1, and the side setting plates 3a and 3b are brought into contact with the edge portions of the sheet 2 in the width direction, and the edge in the width direction is set. Set the section position. The main scanning detection guide 7 moves due to the position setting by the side setting plates 3a and 3b, and the detection signal of the maximum size is input from the main scanning detection unit 8 to the CPU 207 via the A / D converter 206. To be done. Therefore, in step S402, the CPU 207 outputs the detection signal of the maximum size to RA.
Store in M209.

By the way, as shown in FIG. 5, step S
401, a straight line L passing through the two points P1 and P2 obtained in S402
Is given by equation (1).

[0018]

## EQU1 ## L = a.times.A / D value + b Then, in step S403, a and b in the equation (1) are calculated.
Based on points P1 and P2 in FIG. 5, equation (2) and equation (3)
It is calculated from the formula and stored in the RAM 209.

[0019]

## EQU00002 ## a = (A4-A5) / (ad1-ad0)

[0020]

## EQU00003 ## b = (A4.times.ad0-A5.times.ad1) / (ad1-ad0) a and b calculated in this way and stored in the RAM 209 and the width direction of the paper 2 set in the cassette body 1. Substituting the detection output value (A / D value) of the main scanning detector 8 when the edge position of the sheet is set by the side setting plates 3a and 3b into the equation (1), the width of the sheet 2, that is, the sheet 2 The main scanning size is calculated and detected.

Next, the operation of detecting the sub-scanning size of the paper will be described.

As described above, the sub-scanning detection section 6 divides the length of the sheet 2 into three sections, and the sub-scanning detection guide 5a is divided.
5b has different detection states in the respective areas, whereby the switches SW1 and SW2 have different switch states and output the second electric signal. This state is shown in the diagram of FIG. 6, and the ON / OFF states of the switches SW1 and SW2 change due to the positions of the rear end setting plate 4 being at the positions 4a, 4b, and 4c, and the state changes to that state. The sheets to be grouped correspondingly are designated as shown in FIG. That is, the switches SW1 and S
When W2 is (0, 0), there is no cassette. When the switches SW1 and SW2 are (1, 0), the sub-scan length of the sheet 2 is 335 mm or more, and the switches SW1 and SW2 are (0, 0). In 1), the sub-scanning length of the paper 2 is in the cassette state of 232 mm to 335 mm, and when the switches SW1 and SW2 are (1, 1), the sub-scanning length of the paper 2 is in the cassette state of 232 mm or less.

The paper size of the paper 2 is detected based on the main-scan size and the sub-scan size of the paper 2 detected as described above, but the detected sub-scan length has a certain range. Therefore, a plurality of standard sheets may be detected. For example, FOOL SCAP (216 × 317m
m), OFFICIO (216 x 317 mm), EO
FI (220 x 329 mm) may be detected at the same time. In this case, in the first embodiment, when a plurality of standard sheets are detected, the one having the higher priority is recognized and detected as the sheet size according to the priority set in advance for these standard sheets.

A paper size detecting operation in the first embodiment will be described with reference to FIG. First, in step S701, the state of the switch SW1 is determined, and the switch SW1 is set to 1
If it is, the state of the switch SW2 is determined in step S704, and if the switch SW1 is 0, step S7
At 02, the state of the switch SW2 is determined. Step S
If it is determined in 702 that the state of the switch SW2 is 0, the flow advances to step S703 to determine that there is no cassette, and the cassette-less status code is stored in the cassette status storage area of the RAM 209. .

When it is determined in step S702 that the state of the switch SW2 is 1, in step S705, the paper size candidates are narrowed down from the sub-scan length (232 mm to 335 mm) by the main scan length. In step S706, the number of candidates for the main scanning length is determined. If there is only one candidate in this determination, the candidate is determined in step S708, and the RAM 209
The cassette code of the determined candidate is stored in the cassette state storage area of. If it is determined in step S706 that there are a plurality of candidates, in step S707 a candidate is determined from the priority order of the group, and the RAM 209 is selected.
The cassette code of the determined candidate is stored in the cassette state storage area.

When it is determined in step S701 that the state of the switch SW1 is 1, the state of the switch SW2 is determined in step S704. If it is determined in step S704 that the state of the switch SW2 is 0, in step S709, the sub-scanning length (335 mm
From the above, this time, in order to narrow down the paper size candidates by the main scanning length, the process proceeds to step S710, and it is determined how many candidates are in the main scanning length. If there is one candidate in this determination, that candidate is determined in step S712, and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209. Step S710
If it is determined that there are a plurality of candidates in step S711, step S711
At, the candidate is determined from the priority order in the group, and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209.

If it is determined in step S704 that the state of the switch SW2 is 1, then in step S713, in order to narrow down the paper size candidates from the sub-scan length (232 mm or less), this time by the main scan length. , Step S
In step 714, it is determined how many candidates are in the main scanning length. If there is only one candidate in this determination, step S7.
The candidate is determined in 16 and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209. If it is determined in step S714 that there are a plurality of candidates, in step S715 a candidate is determined from the priority order in the group, and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209.

As described above, according to the first embodiment, the paper size is detected based on the edge position of the paper set by the side setting plates 3a and 3b and the rear end setting plate 4, and a plurality of standard size papers are detected. When it is required to finally select the standard size paper from the candidates, the paper size is appropriately selected based on the preset priority order.

Next, a second embodiment will be described. In the second embodiment, the CPU 207 is connected to a setting means for setting the priority order of detection for a plurality of standard paper candidates, and the setting state can be displayed on the operation display unit 211. The configuration of the other parts of the second embodiment is the same as that of the first embodiment already described.

FIG. 8 is a flowchart of the priority order setting process of the second embodiment. When there are a plurality of standard paper candidates, the operation display unit 211 displays the display shown in step S81. Then, the user operates the keyboard of the setting means to display the displayed standard form FOOL.
When the detection priority order is set for SCAP, OFFICIO, and E-OFI and FOOL SCAP is selected, FOOL SCAP is displayed as shown in step S81.
When the cursor is moved to the position and the execute key is operated, the priority order is set in step S84, and the determined candidate cassette code is stored in the cassette state storage area of the RAM 209. To set OFFLCIO, move the cursor to the OFFLCIO position as shown in step S82, and to set E-OFI, move the cursor to the E-OFI position as shown in step S83, and The execute key is operated to proceed to step S84. In this case, it is possible to select the target fixed-size paper by switching the dip switch.

As described above, in the second embodiment, the sheet size is detected based on the edge positions of the sheets set by the side setting plates 3a and 3b and the trailing edge setting plate 4, and a plurality of standard sheet candidates are selected. When it is required to finally select the standard size paper from the inside, the user can set the optimum priority order according to the usage state of the image processing apparatus. The paper size that matches the usage status of is detected. Other operations and effects of the second embodiment are the same as those of the first embodiment already described.

Finally, a third embodiment will be described. In the third embodiment, the priority is set in advance in consideration of the destination of the device. As shown in Figure 6, in countries such as Argentina, Australia and Ecuador,
It is clear that it uses its own standard paper and that it requires its own priority setting depending on the destination. The configuration of the other parts of the third embodiment is the same as that of the first embodiment already described.

FIG. 9 is a flowchart of the paper size detecting operation according to the third embodiment. In step S901, the state of the switch SW1 is judged and the switch SW1 is determined.
Is 1, the state of the switch SW2 is determined in step S904, and if the switch SW1 is 0, the state of the switch SW2 is determined in step S902. If it is determined in step S902 that the state of the switch SW2 is 0, the process proceeds to step S903, it is determined that there is no cassette, and the cassette-free status code is stored in the cassette status storage area of the RAM 209. It

When it is determined in step S902 that the state of the switch SW2 is 1, in step S905, the paper size candidates are narrowed down by the main scanning length from the sub scanning lengths (232 mm to 335 mm). In step S906, the number of candidates for the main scanning length is determined. If there is only one candidate in this determination, the candidate is determined in step S908, and the RAM 209
The cassette code of the determined candidate is stored in the cassette state storage area of. When it is determined in step S906 that there are a plurality of candidates, in step S907 the candidates are determined from the destination priority order in the group, and the RAM is determined.
The cassette code of the determined candidate is stored in the cassette state storage area 209.

When it is determined in step S901 that the state of the switch SW1 is 1, the state of the switch SW2 is determined in step S904. If it is determined in step S904 that the state of the switch SW2 is 0, in step S909, the sub-scanning length (335 mm
From the above, this time, in order to narrow down the paper size candidates by the main scanning length, the process proceeds to step S910, and it is determined how many candidates are in the main scanning length. If there is only one candidate in this determination, the candidate is determined in step S912, and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209. Step S910
If it is determined that there are a plurality of candidates in step S911, step S911
In step 3, a candidate is determined from the priority order of destinations in the group, and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209.

If it is determined in step S904 that the state of the switch SW2 is 1, then in step S913, in order to narrow down the paper size candidates from the sub-scan length (232 mm or less) this time by the main scan length. , Step S
In step 914, it is determined how many candidates are in the main scanning length. If there is only one candidate in this determination, step S9
The candidate is determined in 16 and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209. When it is determined in step S914 that there are a plurality of candidates, in step S915 the candidate is determined from the destination priority order in the group and the cassette code of the determined candidate is stored in the cassette state storage area of the RAM 209.

As described above, according to the third embodiment, the paper size is detected based on the edge position of the paper set by the side setting plates 3a and 3b and the rear end setting plate 4, and a plurality of standard size papers are detected. When it is required to finally select a standard size paper from among the candidates, the standard size paper corresponding to the destination is detected from these candidates based on the preset destination priority order. It

[0038]

As described above, according to the present invention, the first electric signal corresponding to the set value of the paper width setting means and the second electric signal corresponding to the set value of the paper length setting means are provided. Based on this, the paper size is automatically detected, so there is no need to prepare a dedicated cassette for each paper, and it is possible to provide a paper size detection device that has a simple structure and accurately detects the paper size. Become.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a schematic configuration of a main part of a first embodiment of the present invention.

FIG. 2 is a flock diagram showing a schematic configuration of a first embodiment of the present invention.

FIG. 3 is an explanatory diagram showing a configuration of a main scanning length detection unit according to the first embodiment of the present invention.

FIG. 4 is a flowchart showing a preliminary data writing operation of a paper width detecting operation in the first embodiment of the present invention.

FIG. 5 is a characteristic diagram showing the relationship between the paper width and the detection signal of the main scanning length detection unit in the first embodiment of the present invention.

FIG. 6 is an explanatory diagram illustrating a second electrical signal of the sub-scan length detection unit and grouped standard sheets in the first embodiment of the present invention.

FIG. 7 is a flowchart showing the operation of the first exemplary embodiment of the present invention.

FIG. 8 is a flowchart showing the operation of the second exemplary embodiment of the present invention.

FIG. 9 is a flowchart showing the operation of the third exemplary embodiment of the present invention.

[Explanation of symbols]

 1 cassette body 2 paper 3a, 3b side setting plate 4 rear end setting plate 5a, 5b sub-scanning length detection unit 7 main scanning detection guide 8 main scanning length detection unit 202 volume 206 A / D converter 207 CPU 208 ROM 209 RAM 210 I / O circuit 211 Scan display unit 302 Guides 303, 304 Reduction gear

Claims (5)

[Claims] 1. A sheet width setting means for setting an edge position in the width direction of a sheet, and a sheet width for outputting a first electric signal corresponding to the edge position in the width direction set by the sheet width setting means. Detecting means, paper length setting means for setting the edge position of the paper in the length direction, and a second electric signal corresponding to the edge position in the length direction set by the paper length setting means. A paper size detecting device comprising: a paper length detecting means; and a paper size detecting means for detecting the size of the paper based on the first electric signal and the second electric signal. 2. The first output from the paper width detection means
Is a continuous electric signal designating the paper width, and the second electric signal output by the paper length detecting means is included in a corresponding area of the paper length area divided into a plurality of fixed shapes. The paper size detection device according to claim 1, wherein the paper size detection device is an electric signal that specifies a paper. 3. When the paper size detection means detects a plurality of the standard papers based on the first electric signal and the second electric signal, the detection priority order is set for the standard papers. The sheet size detecting device according to claim 2, further comprising setting means for performing the setting. 4. The paper size detecting means selects a plurality of the standard papers based on the first electric signal and the second electric signal, and prioritizes preset in these paper groups. The paper size detection device according to claim 2, wherein the paper size detection is performed according to the order. 5. The paper size detecting device according to claim 4, wherein the priority is set in consideration of the destination of the device.