JP5293526B2 - Image reading device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image reader capable of simply determining a document size without being influenced by colors of a document and disturbance light. <P>SOLUTION: The image reader includes: a light-receiving signal detection part which when a cover member descends to a first down position, receives light from a setting area emitted to a light source and detects a first light-receiving signal, and when the cover member descends to a second down position lower than the first down position, receives light from the setting area emitted to the light source and detects a second light-receiving signal; a comparison value calculation part for calculating a comparison value indicated by a difference or a rate between the first light-receiving signal and the second light-receiving signal; and a document size determination part for determining a document size by using the first comparison value obtained when receiving light from a first light-receiving position on which disturbance light is not made incident other than a non-incident area on which the disturbance light is not made incident in the setting area and a second comparison value obtained when receiving light from a second light-receiving position in the non-incidence area. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to an image reading apparatus that determines the size of a document placed on a document placement unit.

  In recent years, network multifunction devices having a copy function, a facsimile communication function, and a network communication function as one unit have been widely used in order to save space. The network multifunction device is provided with an image reading device that reads an image of a document with a scanner or the like.

  This image reading apparatus has a function of determining the size of a document when reading the image of the document. Conventionally, the image reading apparatus turns on the light source toward the cover immediately before the cover is closed, and receives the reflected light from the document or the cover, thereby determining the size of the document from the intensity of the received light. Yes.

  Further, when the size of the document is determined, the size of the document may be erroneously determined due to the incidence of disturbance light from a fluorescent lamp or the like. Thus, as a method for determining the size of the document by the image reading apparatus, a method has been proposed in which the presence / absence of ambient light is determined and the method for determining the size of the document is changed depending on whether the ambient light is present or not (for example, , See Patent Document 1).

JP 2004-264529 A

  Here, in a conventional image reading apparatus that determines the size of a document by receiving reflected light from the document, it receives light of different intensity depending on the color of the document. For example, the reflected light from a white document and the reflected light from a black document receive light having different intensities. For this reason, in the conventional image reading apparatus, there is a possibility that the size of the document is erroneously determined depending on the color of the document.

  Further, in the conventional image reading apparatus disclosed in Patent Document 1 that prevents erroneous determination due to the influence of disturbance light, it is necessary to determine the presence or absence of disturbance light and to make a different determination depending on whether or not there is disturbance light. Therefore, the process for determining the size of the document is complicated.

  For this reason, in the conventional image reading apparatus, there is a possibility that the size of the document is erroneously determined due to the difference in the color of the document, and the processing for preventing erroneous determination due to the influence of ambient light is complicated. is there.

  Therefore, the present invention has been made in view of such problems, and provides an image reading apparatus that can easily determine the size of a document without being affected by the color of the document and disturbance light. With the goal.

  In order to achieve the above object, an image reading apparatus according to the present invention includes a document placement section having a placement area for placing a document, a light source that irradiates the placement area, and the document placement section. And a cover member that descends so as to cover the document from above, the light from the placement area irradiated to the light source when the cover member is lowered to the first lowered position. The first light receiving signal is detected, and when the cover member is lowered to the second lowered position below the first lowered position, the light from the placement area irradiated to the light source is received. A light reception signal detection unit that detects the second light reception signal, a comparison value calculation unit that calculates a comparison value indicated by a difference or ratio between the detected first light reception signal and the second light reception signal, and Non-incident area where ambient light is not incident The first comparison value, which is the comparison value when receiving light from the first light receiving position where the disturbance light is not incident, and the comparison when receiving light from the second light receiving position in the non-incident region A document size determination unit that determines the size of the document using a second comparison value that is a value;

  According to this, the size of the document is determined from the difference or ratio of the light reception signals at the two lowered positions of the cover member. That is, the light reception signals at the two lowered positions of the cover member have the same value regardless of the color of the document, so the difference between the light reception signals at the two lowered positions is zero or the ratio is close to 1. It becomes. Therefore, the size of the document can be determined without being affected by the color of the document.

  Further, the size of the document is determined from the comparison values at the first light receiving position and the second light receiving position where disturbance light is not incident. That is, since the received light signal at a position where disturbance light does not enter is used, the size of the document can be determined regardless of the presence or absence of disturbance light. Further, since the size of the document is determined from the two comparison values, it is possible to easily determine the size of the document.

  Therefore, it is possible to easily determine the size of the document without being affected by the color of the document and disturbance light.

  Preferably, the comparison value calculation unit obtains a value obtained by subtracting the first light reception signal from the second light reception signal when the light from the first light reception position is received, or the second light reception signal. The first comparison value, which is a value divided by the first light reception signal, is calculated, and the document size determination unit is outside the first light reception position when the first comparison value is equal to or less than a predetermined first threshold value. If the first comparison value is larger than the first threshold value, it is determined that the document edge is located inside the first light receiving position. Determine the size.

  More preferably, the non-incident region is a region larger than B4 width and smaller than A3 width, and when the cover member is lowered to the first lowered position, the disturbance light is outside the non-incident region and within A3 width. When the light from the first light receiving position is received, the comparison value calculation unit calculates the first comparison value that is a value obtained by dividing the second light reception signal by the first light reception signal. The document size determination unit calculates and determines that the size of the document is an A3 width when the first comparison value is less than or equal to the first threshold value.

  According to this, the size of the document is determined by determining whether or not the edge of the document is outside the first light receiving position from the size of the first comparison value. Specifically, it is determined whether or not the document size is A3 width. Accordingly, it is possible to easily determine whether the size of the document is A3 width without being affected by the color of the document and the disturbance light.

  In addition, the comparison value calculation unit receives a value obtained by subtracting the first light reception signal from the second light reception signal when the light from the second light reception position is received, or the second light reception signal as the first light reception. The second comparison value, which is a value divided by the signal, is calculated, and the document size determination unit changes the second light receiving position so that the amount of change in the second comparison value is smaller than a predetermined second threshold value. The size of the document may be determined on the assumption that the edge of the document is at the second light receiving position that has become larger.

  Preferably, the document size determination unit sets the second light receiving position toward the inside of the non-incident area, with the second light receiving position being at the boundary position of the non-incident area as a search start point. The second light receiving position is changed to search for a changing point where the amount of change in the second comparison value is greater than the second threshold value, and the end of the document is at the second light receiving position at the changing point. Then, the size of the original is determined.

  More preferably, the non-incidence area is an area larger than B4 width and smaller than A3 width, and the comparison value calculation unit is configured to calculate from the second light receiving signal when light from the second light receiving position is received. The second comparison value, which is a value obtained by subtracting the first light reception signal, is calculated, and the document size determination unit changes the second light reception position so that the amount of change in the second comparison value is the second threshold value. The change point that is larger than the B4 width is searched, and a size of B4 width or less corresponding to the second light receiving position at the change point is determined as the size of the document.

  According to this, the size of the document is determined assuming that the edge of the document is at the second light receiving position where the amount of change in the second comparison value is greater than the second threshold. Specifically, when the size of the document is B4 width or less, the size of the document is determined by searching for the edge of the document. Thus, it is possible to easily determine the size of the document having a B4 width or less without being affected by the color of the document and the disturbance light.

  Note that the present invention can be realized not only as such an image reading apparatus but also as a network complex machine incorporating such an image reading apparatus.

  The present invention can also be realized as a method in which each operation of a characteristic processing unit included in the image reading apparatus is a step, and the present invention is realized as an integrated circuit that performs processing of each processing unit. You can also.

  Furthermore, the present invention can also be realized as a program for causing a computer to execute the above steps. Such a program can be distributed via a recording medium such as a CD-ROM or a transmission medium such as the Internet.

  According to the image reading apparatus of the present invention, it is possible to easily determine the size of a document without being affected by the color of the document and disturbance light.

It is a figure which shows an example of a structure of the communication system containing the network multifunction device in this Embodiment. It is a block diagram which shows the hardware constitutions of the network multifunction device in this Embodiment. It is sectional drawing which shows the principal part of a scanner. 2 is a block diagram illustrating a functional configuration of the image reading apparatus according to the present embodiment. FIG. It is a figure which shows an example of the light reception signal data in this Embodiment. 5 is a flowchart illustrating an example of an operation of the image reading apparatus according to the present embodiment. It is a flowchart which shows an example of the process in which a received light signal detection part detects a received light signal. It is a figure explaining that a received light signal detection part detects a received light signal. It is a figure explaining that a received light signal detection part detects a received light signal. It is a flowchart which shows an example of the process which judges whether a half open determination part is a half open state. It is a figure explaining a half open state. It is a figure explaining the judgment whether the value shown by the maximum width signal by a half opening judgment part is smaller than a light reception signal threshold value. 5 is a flowchart illustrating an example of processing in which a document size determination unit determines the size of a document. 6 is a flowchart illustrating an example of processing in which a document size determination unit determines the size of a document in the width direction. FIG. 6 is a diagram illustrating that a document size determination unit reduces a first threshold value. FIG. 6 is a diagram illustrating that a document size determination unit reduces a first threshold value. FIG. 6 is a diagram for describing processing in which a document size determination unit determines that a document size is an A3 width. FIG. 6 is a diagram for describing processing in which a document size determination unit determines that a document size is an A3 width. FIG. 10 is a diagram for describing processing in which a document size determination unit determines that a document size is a B4 width or less. FIG. 10 is a diagram for describing processing in which a document size determination unit determines that a document size is a B4 width or less. FIG. 6 is a diagram for describing processing in which a document size determination unit determines that a document size is a B4 width size. FIG. 6 is a diagram for describing processing in which a document size determination unit determines that a document size is a B4 width size. 6 is a flowchart illustrating an example of a process in which a document size determination unit determines the size of a document in the longitudinal direction. FIG. 6 is a diagram for explaining processing in which a document size determination unit determines the size of a document in the longitudinal direction.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
First, an outline of a configuration of a network multifunction peripheral including an image reading apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

  FIG. 1 is a diagram illustrating an example of a configuration of a communication system including a network multifunction peripheral according to the present embodiment.

  As shown in FIG. 1, this communication system includes network multifunction peripherals 1 and 2, terminal devices 3 and 4, PSTN (Public Switched Telephone Networks) 5, and LAN (Local Area Network) 6. ing.

  Here, the network multifunction peripheral 1 is an example of a network multifunction peripheral including the image reading apparatus according to the present embodiment. The network multifunction device 1 is connected to the network multifunction device 2 via the PSTN 5, and is connected to the terminal devices 3 and 4 via the LAN 6.

  The network multifunction device 1 can, for example, send a document read by the scanner by facsimile to the network multifunction device 2 via the PSTN 5 and send it to the terminal devices 3 and 4 via the LAN 6. Also, it can be printed out by a built-in printer.

  FIG. 2 is a block diagram illustrating a hardware configuration of the network multifunction peripheral 1 according to the present embodiment.

  As shown in the figure, the network MFP 1 includes a CPU (Central Processing Unit) 10, a ROM (Read Only Memory) 11, a RAM (Random Access Memory) 12, a modem 13, an NCU (Network Control Unit) 14, and an operation panel. 15, a display 16, a scanner 17, a printer 18, and a LAN I / F (LAN interface) 19.

  The CPU 10 controls the entire network multifunction peripheral 1 by executing a control program 20 stored in the ROM 11.

  The CPU 10 determines the size of the document read by the scanner 17 as a characteristic process. Specific processing contents regarding the determination of the document size will be described later.

  The ROM 11 is a read-only memory that holds a control program 20 executed by the CPU 10.

  The RAM 12 is a readable / writable memory that holds work data used when the CPU 10 executes the control program 20, image data obtained from the scanner 17, and the like.

  The modem 13 modulates the image data and the like held in the RAM 12 into a facsimile signal and transmits it, and demodulates the facsimile signal received from the outside into line data. The modem 13 is a fax modem compliant with the G3 standard, for example.

The NCU 14 is a network control device that controls the connection between the modem 13 and the PSTN 5.
The operation panel 15 is a touch panel that receives an operation from a user.

  The display 16 is a display device that displays an operation guide for the user or an operation state of the network multifunction peripheral 1, and is, for example, an LCD (Liquid Crystal Display).

  The scanner 17 is a device that reads an image, and generates image data by optically reading a document using a CCD under the control of the CPU 10. The scanner 17 is provided in the image reading apparatus according to the present embodiment.

  The printer 18 is a printing device, and prints out an image image represented by, for example, image data held in the RAM 12 under the control of the CPU 10.

  The LAN I / F 19 is a communication adapter that connects the network multifunction device 1 and the LAN 6, and transmits, for example, image data held in the RAM 12 to the terminal device 3 or the like under the control of the CPU 10.

Next, the scanner 17 provided in the image reading apparatus in the present embodiment will be described.
FIG. 3 is a cross-sectional view showing the main part of the scanner 17. The hardware configuration of the scanner 17 will be briefly described with reference to FIG.

  The scanner 17 is a scanner that can read a document by a flat bed scanning method and an automatic document feeding method, and includes a reading mechanism unit 170, a cover member 180, and a document feeding unit 190.

  The reading mechanism unit 170 includes a document placement unit 171, a longitudinal sensor 172, a full rate carriage 173, a half rate carriage 178, a condenser lens unit 179, a CCD 175, a driving belt 176a, a driving belt 176b, and a moving motor 177.

  The document placing portion 171 is a contact glass having a placement area for placing a document. That is, the user places a document in the placement region on the document placement unit 171.

  The longitudinal sensor 172 is a sensor for determining the size of the length in the longitudinal direction (lateral direction) of the document. Specifically, the longitudinal sensor 172 acquires an ON or OFF signal indicating a document placement state on the document placement unit 171 at a position above the length sensor 172 of the document placement unit 171. Details of processing for determining the size of the length of the document based on the ON or OFF signal acquired by the longitudinal sensor 172 will be described later.

  The full-rate carriage 173 has a light source 174 and a first mirror 173a inside, and is attached to a driving belt 176a driven by a moving motor 177. As a result, the full rate carriage 173 moves in the left-right direction in FIG.

  The light source 174 irradiates the placement area of the document placement portion 171. That is, the light source 174 irradiates the back side of the document placed in the placement area from below the document placement unit 171. In the area where the document is not placed within the placement area, the light source 174 irradiates the area toward the back surface of the cover member 180.

  The half-rate carriage 178 includes a second mirror 178a and a third mirror 178b that form an angle of 90 ° with each other, and is attached to a driving belt 176b driven by a moving motor 177.

  The driving belt 176a and the driving belt 176b are coaxially mounted on the driving pulley having a diameter of 2: 1 and are driven by the same moving motor 177.

  Accordingly, the full-rate carriage 173 connected to the drive belt 176a and the half-rate carriage 178 connected to the drive belt 176b are reciprocated so as to follow each other at a speed ratio of 2: 1 by the rotational drive of the moving motor 177. To do.

  The condenser lens unit 179 and the CCD 175 are fixed to the housing of the reading mechanism unit 170. Specifically, the reflected light emitted from the light source 174 and reflected by the document is reflected in the order of the first mirror 173a, the second mirror 178a, and the third mirror 178b, and passes through the condenser lens unit 179 to the CCD 175. Incident light is imaged. Then, the CCD 175 converts the formed optical information into a digital electric signal and outputs it.

  The cover member 180 is attached to the reading mechanism unit 170 so as to be capable of rotating and opening. That is, the cover member 180 is a member that descends from above the document placement portion 171 so as to cover the document. Specifically, when a document is read by the flat bed scanning method, the user presses and stops the document on the document placement unit 171 by the cover member 180 that functions as a presser lid.

  The document feeding unit 190 transfers the document to a placement area on the document placement unit 171 when the document is read by the automatic document feeding method.

  The configuration of the scanner 17 is not limited to such a configuration. For example, a configuration in which the CCD directly captures the reflected light from the original when a single carriage in which the light source and the CCD are installed moves under the original is also possible.

The above is the outline of the configuration of the network MFP 1 according to the present embodiment.
Next, the functional configuration and operation of the image reading apparatus according to the present embodiment will be described.

  FIG. 4 is a block diagram illustrating a functional configuration of the image reading apparatus 100 according to the present embodiment. That is, this figure is a block diagram showing a configuration of functions mainly related to the image reading apparatus 100 of the present embodiment, among the functions of the network multifunction peripheral 1 that is exhibited by the hardware configuration shown in FIG. .

  As shown in the figure, in addition to the scanner 17, the image reading apparatus 100 includes a descending position detection unit 101, an irradiation unit 102, a received light signal detection unit 103, a comparison value calculation unit 104, a half-open determination unit 105, and a document size determination unit. 106, a longitudinal signal detection unit 107 and a data storage unit 110. Note that various processes performed by the descending position detection unit 101, the irradiation unit 102, the received light signal detection unit 103, the comparison value calculation unit 104, the half-open determination unit 105, the document size determination unit 106, and the longitudinal signal detection unit 107 described below are specific. Specifically, it is realized by the CPU 10 or the like that executes the control program 20.

  The lowered position detection unit 101 is a sensor that detects the lowered position of the cover member 180. Specifically, the lowered position detection unit 101 detects the lowered position of the cover member 180 immediately before the cover member 180 closes the document placement unit 171 as the first lowered position. Further, the lowered position detection unit 101 detects the lowered position of the cover member 180 after the cover member 180 closes the document placing portion 171 as the second lowered position.

  It should be noted that any detection mechanism of the lowered position detection unit 101 may be used, and the first lowered position and the second lowered position may be detected based on the position of the cover member 180, or the document of the cover member 180 may be detected. You may detect by the opening-and-closing angle with respect to the mounting part 171. FIG. Further, the lowered position detection unit 101 may detect the first lowered position and the second lowered position with one sensor, and includes two sensors that respectively detect the first lowered position and the second lowered position. It may be.

  When the cover member 180 is lowered to the first lowered position and when the cover member 180 is lowered to the second lowered position, the irradiation unit 102 causes the light source 174 to send the document or cover member 180 from below the document placing portion 171. The mounting area is irradiated toward the surface. That is, the irradiation unit 102 detects that the lowering position detection unit 101 detects that the lowering position of the cover member 180 is the first lowering position, and that the lowering position of the cover member 180 is the second lowering position. In this case, the light source 174 is irradiated with the placement area.

  When the cover member 180 is lowered to the first lowered position, the light reception signal detection unit 103 receives light from the placement area irradiated on the light source 174 by the irradiation unit 102 and detects the first light reception signal. In addition, the light reception signal detection unit 103 receives light from the placement region irradiated on the light source 174 by the irradiation unit 102 when the cover member 180 is lowered to the second lowering position below the first lowering position. The second light receiving signal is detected.

  That is, the light reception signal detection unit 103 detects the first light reception signal when the lowering position detection unit 101 detects that the lowering position of the cover member 180 is the first lowering position, and the lowering position of the cover member 180 is the first lowering position. The second received light signal is detected when it is detected that the position is 2 lowering position.

  Specifically, the light reception signal detection unit 103 receives the light of the light source 174 reflected on the document or the light of the light source 174 reflected on the cover member 180 when the cover member 180 is lowered to the first lowered position. Thus, the first light reception signal is detected. The light receiving signal detector 103 receives the light of the light source 174 reflected on the document or the light of the light source 174 reflected on the cover member 180 when the cover member 180 is lowered to the second lowered position. 2 Detects the received light signal. Here, the light reception signal detection unit 103 detects an electrical signal output from the CCD 175 as a light reception signal.

  The comparison value calculation unit 104 calculates a comparison value indicated by the difference or ratio between the first light reception signal and the second light reception signal detected by the light reception signal detection unit 103. Specifically, the comparison value calculation unit 104 receives a value obtained by subtracting the first light reception signal from the second light reception signal or the second light reception signal as the first light reception signal when light from the first light reception position is received. A first comparison value that is the divided value is calculated. In addition, the comparison value calculation unit 104 receives the light from the second light receiving position, the value obtained by subtracting the first light receiving signal from the second light receiving signal, or the value obtained by dividing the second light receiving signal by the first light receiving signal. A second comparison value is calculated.

  Here, the first light receiving position is a predetermined position in the placement area. Specifically, in the placement area, the disturbance light outside the non-incident area where the disturbance light does not enter is not incident. is there. The second light receiving position is a predetermined position in the placement area, specifically, a position in the non-incident area.

  The half-open determination unit 105 uses the second light reception signal detected by the light reception signal detection unit 103 to determine whether or not the second lowered position is a lowered position in the half-open state.

  Specifically, the half-open determination unit 105 is the second light reception signal when receiving light from a position outside the maximum document width of the document placed on the document placement unit 171 in the placement region. It is determined whether or not the value indicated by the large signal is smaller than a light reception signal threshold value that is a predetermined threshold value.

  When the half-opening determination unit 105 determines that the value indicated by the maximum width signal is smaller than the light reception signal threshold value, the half-opening position is set to the second lowered position in a half-open state where the document placement unit 171 is not closed. Judged to be in the lowered position. Further, when the half-opening determination unit 105 determines that the value indicated by the maximum width signal is equal to or greater than the light reception signal threshold, the half-opening determination unit 105 sets the second lowering position to the lowering position in the closed state in which the cover member 180 closes the document placement unit 171. It is judged that.

  When the cover member 180 is lowered to the first lowered position and when the cover member 180 is lowered to the second lowered position, the longitudinal signal detecting unit 107 detects the length in the longitudinal direction of the document acquired by the longitudinal sensor 172. A longitudinal signal which is an ON or OFF signal for determining the size is detected. That is, the longitudinal signal detection unit 107 detects the first longitudinal signal when the descending position detection unit 101 detects that the descending position of the cover member 180 is the first descending position, and the descending position of the cover member 180 is the first descending position. The second longitudinal signal is detected when it is detected that the position is 2 lowering position.

  The document size determination unit 106 includes a first comparison value that is a comparison value when light from the first light receiving position is received, and a second comparison value that is a comparison value when light from the second light receiving position is received. Is used to determine the size of the document. Here, the size of the document to be determined is the size of the length in the width direction (vertical direction) of the document.

  Specifically, the document size determination unit 106 determines the size of the document based on whether or not the first comparison value calculated by the comparison value calculation unit 104 is equal to or less than a predetermined first threshold value. That is, when the first comparison value is equal to or smaller than the first threshold value, the document size determination unit 106 determines the size of the document on the assumption that the document edge is located outside the first light receiving position, and the first comparison value is If it is larger than one threshold value, the size of the document is determined on the assumption that the edge of the document is inside the first light receiving position.

  Further, when the half-open determination unit 105 determines that the second lowered position is the lowered position in the half-open state, the document size determining unit 106 changes the first threshold value and changes the first comparison value after the first comparison value has changed. The size of the document is determined based on whether or not it is equal to or less than the threshold value.

  Specifically, the document size determination unit 106 determines the document size by reducing the first threshold. That is, when the document size determination unit 106 determines that the second lowered position is the lowered position in the half-open state, and determines that the first comparison value is equal to or less than the first threshold value after reduction, The size of the document is determined on the assumption that the edge of the document is outside the light receiving position.

  Further, the document size determination unit 106 assumes that the edge of the document is at the second light receiving position where the amount of change in the second comparison value is greater than a predetermined second threshold due to the change in the second light receiving position. Determine the size of the document. Specifically, the document size determination unit 106 sets the second light receiving position so that the second light receiving position is directed to the inside of the non-incident area, with the second light receiving position being at the boundary position of the non-incident area. Is changed to search for a change point at which the amount of change in the second comparison value is greater than the second threshold, and the size of the document is determined assuming that the end of the document is at the second light receiving position at the change point.

  Then, the document size determination unit 106 determines the size of the document based on the determined size in the width direction of the document and the size in the longitudinal direction determined from the first longitudinal signal and the second longitudinal signal detected by the longitudinal signal detection unit 107. To decide.

  The data storage unit 110 is a storage unit that stores light reception signal data 111 in which a light reception position, a first light reception signal, and a second light reception signal are associated with each other, and is specifically realized by the RAM 12.

FIG. 5 is a diagram showing an example of the light reception signal data 111 in the present embodiment.
As shown in the figure, the light reception signal data 111 is a collection of data indicating the first light reception signal and the second light reception signal detected by the light reception signal detection unit 103 for each light reception position.

  That is, the light reception signal detection unit 103 detects the first light reception signal and the second light reception signal for each light reception position, and stores the detected first light reception signal and second light reception signal in the data storage unit 110, thereby receiving the light reception signal. Data 111 is updated.

  Further, the comparison value calculation unit 104 refers to the first light reception signal and the second light reception signal in the light reception signal data 111, thereby obtaining a comparison value indicated by the difference or ratio between the first light reception signal and the second light reception signal. calculate.

  Further, the half-open determination unit 105 refers to the second light reception signal of the light reception signal data 111 to determine whether the second lowered position is a lowered position in the half-open state or a lowered position in the closed state.

Next, an operation of processing in which the image reading apparatus 100 determines the size of the document will be described.
FIG. 6 is a flowchart illustrating an example of the operation of the image reading apparatus 100 according to the present embodiment.

  As shown in the figure, first, the received light signal detector 103 detects a received light signal (S102). Details of the process in which the light reception signal detection unit 103 detects the light reception signal will be described later.

  Then, the half-open determination unit 105 determines whether or not the second lowered position is a lowered position in the half-open state using the second received light signal detected by the received light signal detector 103 (S104). Details of the process for determining whether or not the half-open determination unit 105 is in the half-open state will be described later.

  Then, the document size determination unit 106 determines the size of the document from the light reception signal received by the light reception signal detection unit 103 and the result of determination by the half-open determination unit 105 (S106). Details of the process in which the document size determination unit 106 determines the size of the document will be described later.

Thus, the process of determining the size of the document by the image reading apparatus 100 ends.
Next, details of the process (S102 in FIG. 6) in which the received light signal detection unit 103 detects the received light signal will be described.

  FIG. 7 is a flowchart illustrating an example of processing in which the light reception signal detection unit 103 detects a light reception signal.

  8A and 8B are diagrams illustrating that the light reception signal detection unit 103 detects a light reception signal.

  As shown in FIG. 7, first, the lowered position detecting unit 101 detects the first lowered position (S202). Specifically, as shown in FIG. 8A, the lowered position detecting unit 101 detects the lowered position of the cover member 180 immediately before the cover member 180 closes the document placing portion 171 as the first lowered position.

  Next, the longitudinal signal detection unit 107 detects the first longitudinal signal acquired by the longitudinal sensor 172 (S204).

  Then, the irradiation unit 102 causes the light source 174 to irradiate the placement area from below the document placement unit 171 toward the document or the cover member 180 (S206).

  Then, the light reception signal detection unit 103 detects an electric signal output by the CCD 175 receiving the light emitted from the irradiation unit 102 as a first light reception signal (S208). Then, the light reception signal detection unit 103 updates the light reception signal data 111 by storing the detected first light reception signal in the data storage unit 110.

  Next, the lowered position detection unit 101 detects the second lowered position (S210). Specifically, as shown in FIG. 8B, the lowered position detection unit 101 detects the lowered position of the cover member 180 after the cover member 180 closes the document placing portion 171 as the second lowered position.

  Next, the longitudinal signal detection unit 107 detects the second longitudinal signal acquired by the longitudinal sensor 172 (S212).

  Then, the irradiation unit 102 causes the light source 174 to irradiate the placement area from below the document placement unit 171 toward the document or the cover member 180 (S214).

  Then, the light reception signal detection unit 103 detects the electric signal output by the CCD 175 receiving the light emitted from the irradiation unit 102 as a second light reception signal (S216). Then, the light reception signal detection unit 103 updates the light reception signal data 111 by storing the detected second light reception signal in the data storage unit 110.

  Thus, the process of detecting the light reception signal by the light reception signal detection unit 103 (S102 in FIG. 6) ends.

  Next, details of the process (S104 in FIG. 6) for determining whether or not the half-open determination unit 105 is in the half-open state will be described.

  FIG. 9 is a flowchart illustrating an example of processing for determining whether or not the half-open determination unit 105 is in a half-open state.

FIG. 10 is a diagram illustrating the half-open state.
As shown in FIG. 9, first, the half-open determination unit 105 acquires a maximum width signal (S302). Specifically, the half-open determination unit 105 receives light from a position outside the maximum document width of the document placed on the document placement unit 171 by referring to the second light reception signal of the light reception signal data 111. The maximum width signal that is the second received light signal is acquired.

  Then, the half-open determination unit 105 determines whether or not the value indicated by the maximum width signal is smaller than a light reception signal threshold value that is a predetermined threshold value (S304). Details of the determination by the half-open determination unit 105 as to whether or not the value indicated by the maximum width signal is smaller than the light reception signal threshold will be described later.

  When the half-opening determination unit 105 determines that the value indicated by the maximum width signal is smaller than the light reception signal threshold (YES in S304), as shown in FIG. 10, the second lowered position is the lowered position in the half-open state. Judgment is made (S306).

  That is, as shown in FIG. 8A, when a thin document Z1 such as paper is placed on the document placement portion 171, the cover member 180 is completely placed on the document placement portion 171 as shown in FIG. 8B. Can be closed. However, as shown in FIG. 10, when a thick original Z2 such as a book is placed on the original placement portion 171, the cover member 180 cannot be completely closed, and the cover member 180 is in a half-open state. Become.

  Returning to FIG. 9, when the half-open determination unit 105 determines that the value indicated by the maximum width signal is equal to or greater than the light reception signal threshold (NO in S <b> 304), the half-open determination unit 105 determines that the second lowered position is the lowered position in the closed state. (S308).

  Thus, the process of determining whether or not the half-open determination unit 105 is in the half-open state (S104 in FIG. 6) ends.

  Next, a description will be given of the determination (S304 in FIG. 9) as to whether or not the value indicated by the maximum width signal by the half-open determination unit 105 is smaller than the light reception signal threshold.

  FIG. 11 is a diagram for explaining determination by the half-open determination unit 105 whether or not the value indicated by the maximum width signal is smaller than the received light signal threshold value. In the figure, the horizontal axis indicates the position in the width direction of the document, and the vertical axis indicates the magnitude of the received light signal at that position.

  Further, in the drawing, the solid line indicates the position of the document in the width direction and the magnitude of the received light signal when the cover member 180 is closed when a document having a size of A3 is placed on the document placement unit 171. It is a graph which shows the relationship. The dotted line indicates the position in the width direction of the document and the light reception signal when the cover member 180 is half-opened when a document having a size of A3 which is the maximum document width is placed on the document placement unit 171. It is a graph which shows the relationship with a magnitude | size.

  As shown in the figure, since the original is placed in the A3 width area of the original area, both the light reception signal is reflected from the original when the cover member 180 is in the closed state and the half-open state. Is the same value.

  On the other hand, in the area outside the A3 width which is the maximum original width in the original area (for example, the light receiving position Q1 shown in the figure), no original is placed, so the cover member 180 is in the closed state and half-opened. Depending on the state, the received light signal has a different value.

  That is, in the closed state of the cover member 180, the light reception signal is a signal (Y1 shown in the figure) that receives light reflected from the back surface of the cover member 180. When the cover member 180 is in the half-opened state, the light reception signal is not completely reflected by the back surface of the cover member 180, so that the signal (Y2 shown in the figure) is lower than the light reception signal when the cover member 180 is closed. )

  Therefore, the half-open determination unit 105 determines whether or not the value indicated by the received light signal is smaller than the received light signal threshold value (W1 shown in FIG. 9) (S304 in FIG. 9). If it is determined, it is determined to be in a half-open state (S306 in FIG. 9).

  Next, details of the process (S106 in FIG. 6) in which the document size determination unit 106 determines the size of the document will be described.

  FIG. 12 is a flowchart illustrating an example of processing in which the document size determination unit 106 determines the size of the document.

  As shown in the figure, the document size determination unit 106 determines the size of the document in the width direction (S402). Details of the process in which the document size determination unit 106 determines the size of the document in the width direction will be described later.

  Then, the document size determination unit 106 determines the size of the document in the longitudinal direction (S404). Details of the process in which the document size determination unit 106 determines the size of the document in the longitudinal direction will be described later.

  Then, the document size determination unit 106 determines the size of the document from the determined size in the width direction and the size in the longitudinal direction (S406).

  Thus, the process (S106 in FIG. 6) in which the document size determination unit 106 determines the size of the document ends.

  Next, details of the process (S402 in FIG. 12) in which the document size determination unit 106 determines the size of the document in the width direction will be described.

  Here, as a premise, the non-incident area is an area larger than the B4 width and smaller than the A3 width, and when the cover member 180 is lowered to the first lowered position, the disturbance light is outside the non-incident area and within the A3 width. Incident into the area.

  FIG. 13 is a flowchart illustrating an example of processing in which the document size determination unit 106 determines the size of the document in the width direction.

  As shown in the figure, first, the comparison value calculation unit 104 calculates the first comparison value by referring to the first light reception signal and the second light reception signal of the light reception signal data 111 (S502). Here, the first comparison value is a value obtained by dividing the second light reception signal by the first light reception signal when the light reception signal detection unit 103 receives light from the first light reception position. Note that the first comparison value may be a value obtained by subtracting the first light reception signal from the second light reception signal when the light reception signal detection unit 103 receives light from the first light reception position.

  The first light receiving position is a position outside the B4 width and within the A3 width where disturbance light outside the non-incident area does not enter.

  Then, the document size determination unit 106 determines whether or not the half-opening determination unit 105 determines that the second lowering position is the lowering position in the half-open state (S504).

  When the half-open determination unit 105 determines that the second lowering position is the lowered position in the half-open state (YES in step S504), the document size determination unit 106 is a first threshold that is used to determine the size of the document. The threshold value is reduced (S506).

  14A and 14B are diagrams for explaining that the document size determination unit 106 reduces the first threshold value. In FIG. 14A, the horizontal axis indicates the position in the width direction of the document, and the vertical axis indicates the magnitude of the received light signal at that position. In FIG. 14B, the horizontal axis indicates the position in the width direction of the document, and the vertical axis indicates the value of the first comparison value at that position.

  In FIG. 14A, the solid line is a graph showing the relationship between the position in the width direction of the document and the magnitude of the first light receiving signal when a document having an A3 width is placed on the document placement unit 171. is there. The dotted line is a graph showing the relationship between the position of the document in the width direction and the magnitude of the second light receiving signal when an A3 width document is placed on the document placement unit 171.

  In the dotted line graph of FIG. 14A, the magnitude of the second light receiving signal at the light receiving position Q1 outside the A3 width and the second lowered position at the lowered position in the closed state is indicated by the light received signal Y1. The magnitude of the second received light signal at the lowered position where the lowered position is in the half-open state is indicated by the received light signal Y2.

  FIG. 14B shows a graph showing the relationship between the position in the width direction of the document and the magnitude of the first comparison value in the state shown in FIG. 14A. That is, the first comparison value X1 indicates the magnitude of the first comparison value when the second lowered position is the closed lowered position, and the second comparison position indicates the magnitude of the first comparison value when the second lowered position is the half lowered position. This is indicated by the first comparison value X2.

  As shown in these drawings, when the second lowered position is the lowered position in the half-open state, the first comparison value is smaller than when the second lowered position is the lowered position in the closed state. That is, when the first threshold value for comparing the second lowered position with the first comparison value X1 at the lowered position in the closed state is the first threshold value W2 shown in FIG. 14B, the first comparison value X1 and the first threshold value W2 And the magnitude relationship between the first comparison value X2 and the first threshold value W2 at the lowered position where the second lowered position is in the half-open state are reversed. Therefore, in order to accurately determine the first comparison value, it is necessary to reduce the first threshold value to the first threshold value W3 and compare the first comparison value X2 and the first threshold value W3.

  Accordingly, when the second lowered position is the half-opened lowered position (YES in S504 in FIG. 13), the document size determining unit 106 reduces the first threshold value that is a threshold value for determining the document size ( S506 in FIG. For example, the document size determination unit 106 reduces the first threshold value to a half value.

  14A and 14B, for the sake of simplicity, the description has been made without considering disturbance light. Similarly, even when disturbance light is incident, the document size determination unit 106 is in a state where the second lowered position is in a half-open state. When the position is the lowering position, the first threshold value is reduced.

  Returning to FIG. 13, when the document size determination unit 106 determines that the half-open determination unit 105 determines that the second lowered position is the lowered position in the closed state (NO in S <b> 504), the document size determination unit 106 does not reduce the first threshold value. The process proceeds to the next process (S508).

  Next, the document size determination unit 106 determines whether or not the first comparison value calculated by the comparison value calculation unit 104 is equal to or less than the first threshold (S508). If the first threshold value is reduced, document size determination unit 106 determines whether or not the first comparison value is equal to or less than the first threshold value after reduction.

  When it is determined that the first comparison value is equal to or smaller than the first threshold (YES in S508), the document size determination unit 106 determines the size of the document on the assumption that the end of the document is outside the first light receiving position. Here, since the first light receiving position is a position outside the B4 width and within the A3 width, when the end of the document is outside the first light receiving position, the size of the document is the size of the A3 width.

  For this reason, when the document size determination unit 106 determines that the first comparison value is equal to or smaller than the first threshold (YES in S508), the document size determination unit 106 determines that the size of the document is an A3 width (S510).

  FIGS. 15A and 15B are diagrams for describing processing in which the document size determination unit 106 determines that the size of the document is the size of the A3 width. In FIG. 15A, the horizontal axis indicates the position in the width direction of the document, and the vertical axis indicates the magnitude of the received light signal at that position. In FIG. 15B, the horizontal axis indicates the position in the width direction of the document, and the vertical axis indicates the value of the first comparison value at that position.

  In FIG. 15A, the solid line is a graph showing the relationship between the position of the document in the width direction and the magnitude of the first light reception signal when an A3 width document is placed on the document placement unit 171. is there. The dotted line is a graph showing the relationship between the position of the document in the width direction and the magnitude of the second light receiving signal when an A3 width document is placed on the document placement unit 171.

  Since disturbance light is incident on the region G shown in the figure, the graph showing the magnitude of the first received light signal is different from the graph shown in FIG. 14A.

  FIG. 15B shows a graph showing the relationship between the position in the width direction of the document and the magnitude of the first comparison value in the state shown in FIG. 15A.

  Further, as shown in these drawings, the first light receiving position P2 is located outside the boundary position P1 of the non-incident region and outside the B4 width where the disturbance light is not incident and within the A3 width.

  Then, the document size determination unit 106 determines whether or not the first comparison value at the first light receiving position P2 is equal to or less than the first threshold (W2 or W3) (S508 in FIG. 13). When a document having a size of A3 is placed on the document placing portion 171, the first light receiving signal and the second light receiving signal at the first light receiving position P <b> 2 have the same value. Becomes a small value close to 1.

  Therefore, the document size determination unit 106 determines that the first comparison value at the first light receiving position P2 is equal to or smaller than the first threshold (YES in S508 in FIG. 13), and the document size is the size of the A3 width. (S510 in FIG. 13).

  Returning to FIG. 13, when the document size determination unit 106 determines that the first comparison value is larger than the first threshold value (NO in S <b> 508), the document size determination unit 106 determines that the end of the document is inside the first light receiving position. Determine the size. That is, the document size determination unit 106 determines that the size of the document is a B4 width or less.

  FIGS. 16A and 16B are diagrams for describing processing in which the document size determination unit 106 determines that the size of the document is equal to or smaller than the B4 width.

  15A and 15B show graphs in the case where an A3 width original is placed on the original placement portion 171, whereas FIGS. 16A and 16B show B4 width originals. Is a graph when the document is placed on the document placement unit 171.

  Then, the document size determination unit 106 determines whether or not the first comparison value at the first light receiving position P2 is equal to or less than the first threshold (W2 or W3) (S508 in FIG. 13). Here, when a document having a size of B4 width is placed on the document placing portion 171, no document is placed at the first light receiving position P2. That is, strong light reflected from the cover member 180 is received at the first light receiving position P2.

  For this reason, as shown in these drawings, since the second light receiving signal at the first light receiving position P2 is larger than the first light receiving signal, the first comparison value X4 at the first light receiving position P2 is: The value is larger than the first threshold (W2 or W3). Accordingly, the document size determination unit 106 determines that the first comparison value X4 at the first light receiving position P2 is larger than the first threshold (NO in S508 in FIG. 13), and the document size is a size equal to or smaller than the B4 width. Judge that there is.

  Returning to FIG. 13, the comparison value calculation unit 104 calculates the second comparison value by referring to the first light reception signal and the second light reception signal of the light reception signal data 111 (S512). Here, the second comparison value is a value obtained by subtracting the first light reception signal from the second light reception signal when the light reception signal detection unit 103 receives light from the second light reception position. Note that the second comparison value may be a value obtained by dividing the second received light signal by the first received light signal when the received light signal detection unit 103 receives light from the second received light position. The second light receiving position is a position in the non-incident area, that is, a position inside the A3 width.

  Then, the document size determination unit 106 starts searching for a change point, using the case where the second light receiving position is at the boundary position of the non-incident area as a search start point (S514). Specifically, the document size determination unit 106 changes the second light receiving position so that the second light receiving position is directed to the inside of the non-incident area, and the amount of change in the second comparison value is smaller than a predetermined second threshold value. Search for changing points.

  That is, the document size determination unit 106 determines whether the change amount of the second comparison value is greater than the second threshold value for the second light receiving positions before and after the change (S516).

  When the document size determination unit 106 determines that the amount of change in the second comparison value is greater than the second threshold (YES in S516), the document size determination unit 106 determines that the edge of the document is at the second light receiving position at the change point. Determine the size. Here, since the second light receiving position is a position inside the A3 width, the document size determination unit 106 determines that the amount of change in the second comparison value is larger than the second threshold (YES in S516). Then, a size of B4 width or less corresponding to the second light receiving position at the change point is determined as the document size (S518).

  For example, when the second light receiving position at the change point is a position indicating the size of the B4 width, the document size determination unit 106 determines that the size of the document is the size of the B4 width. The same applies to the A4 width and the B5 width.

  FIGS. 17A and 17B are diagrams for describing processing in which the document size determination unit 106 determines that the size of the document is a B4 width size.

  These figures are diagrams showing a search for a change point by changing the second light receiving position P3 in the graphs shown in FIGS. 16A and 16B. In other words, these drawings show graphs when a document having a B4 width is placed on the document placing portion 171.

  FIG. 17B shows a graph showing the relationship between the position in the width direction of the document and the magnitude of the second comparison value in the state shown in FIG. 17A.

  As shown in these drawings, the document size determination unit 106 starts searching for a change point with the second light receiving position P3 being at the boundary position P1 of the non-incident area as a search start point (S514 in FIG. 13). . Then, the document size determination unit 106 changes the position of the second light receiving position P3 so that the second light receiving position P3 is directed to the inside of the non-incident region, and the amount of change in the second comparison value is larger than the second threshold value. Search for the changing point.

  Then, as illustrated in FIG. 17B, the document size determination unit 106 determines that the amount of change in the second comparison value is greater than the second threshold when the second light receiving position P3 is a position indicating the end of the B4 width. Is determined (YES in S516 in FIG. 13), it is determined that the size of the document is a B4 width (S518 in FIG. 13).

  Here, the amount of change in the second comparison value will be described. For example, when the second light receiving position is changed from P5 to P6, the second comparison value at the second light receiving position P5 is X5, and the second comparison value at the second light receiving position P6 is X6, The change amount of the two comparison values is calculated by the following formula.

  Change amount of second comparison value = (X5-X6) / (P5-P6)

  Returning to FIG. 13, when the document size determination unit 106 determines that the amount of change in the second comparison value is equal to or smaller than the second threshold (NO in S516), it determines that there is no document (S520). In other words, the document size determination unit 106 determines that no document is placed on the document placement unit 171 when no change point is found even if the second light receiving position changes in all non-incident areas. to decide.

  Thus, the process (S402 in FIG. 12) in which the document size determination unit 106 determines the size in the width direction of the document ends.

  Next, details of the process (S404 in FIG. 12) in which the document size determination unit 106 determines the size of the document in the longitudinal direction will be described.

  FIG. 18 is a flowchart illustrating an example of processing in which the document size determination unit 106 determines the size of the document in the longitudinal direction.

  As shown in the figure, first, the document size determination unit 106 acquires the first longitudinal signal and the second longitudinal signal detected by the longitudinal signal detection unit 107 via the longitudinal sensor 172 (S602). The first longitudinal signal and the second longitudinal signal are ON or OFF signals indicating the document placement state on the document placement unit 171.

  Next, the document size determination unit 106 determines whether or not both of the acquired first longitudinal signal and second longitudinal signal are ON signals or OFF signals (S604).

  When the original size determination unit 106 determines that the acquired first longitudinal signal and second longitudinal signal are both ON signals or OFF signals (YES in S604), the size of the original in the longitudinal direction is “long”. It is determined that there is (S606).

  When the document size determination unit 106 determines that one of the acquired first longitudinal signal and second longitudinal signal is an ON signal and the other is an OFF signal (NO in S604), the size of the document in the longitudinal direction is determined. Is determined to be “short” (S608).

  Thus, the process (S404 in FIG. 12) in which the document size determination unit 106 determines the size of the document in the longitudinal direction is completed.

  Here, the process in which the document size determination unit 106 shown in FIG. 18 determines the size of the document in the longitudinal direction will be described in detail.

  FIG. 19 is a diagram for explaining processing in which the document size determination unit 106 determines the size of the document in the longitudinal direction.

  As shown in the figure, the longitudinal sensor 172 obtains an ON or OFF signal indicating a document placement state on the document placement portion 171 at a position above the length sensor 172 of the document placement portion 171.

  Then, the document size determination unit 106 acquires a first longitudinal signal that is an ON or OFF signal at the first lowered position and a second longitudinal signal that is an ON or OFF signal at the second lowered position (FIG. 18). S602).

  Here, if both the first longitudinal signal and the second longitudinal signal are ON signals or OFF signals, the state of the document placing portion 171 at the position above the longitudinal sensor 172 is the first lowered position and the second lowered position. That would have been the same. That is, since the document is placed at a position above the longitudinal sensor 172, the first longitudinal signal and the second longitudinal signal indicate the same signal even when the cover member 180 is opened and closed.

  That is, if both the first longitudinal signal and the second longitudinal signal are ON signals or OFF signals, it can be determined that the document is placed at a position above the longitudinal sensor 172. In this case, the document is long in the longitudinal direction. Is placed in a long horizontal direction. Here, the size of the document in the longitudinal direction when it is arranged in the landscape orientation is referred to as “long”.

  Therefore, when the document size determination unit 106 determines that both the first longitudinal signal and the second longitudinal signal are ON signals or OFF signals (YES in S604 in FIG. 18), the size of the document in the longitudinal direction is It is determined that it is “long” (S606 in FIG. 18).

  On the other hand, if one of the first longitudinal signal and the second longitudinal signal is an ON signal and the other is an OFF signal, the document is placed at a position above the longitudinal sensor 172 in the first lowered position and the second lowered position. The state of the part 171 is different. That is, since the document is not placed on the position above the longitudinal sensor 172, the first longitudinal signal and the second longitudinal signal indicate different signals due to opening and closing of the cover member 180.

  That is, if one of the first longitudinal signal and the second longitudinal signal is an ON signal and the other is an OFF signal, it can be determined that the document is not placed at a position above the longitudinal sensor 172. In this case, the document is It is placed in the vertical direction with a short length in the longitudinal direction. Here, the size of the document in the longitudinal direction when it is arranged in the portrait orientation is referred to as “short”.

  Therefore, when the document size determination unit 106 determines that one of the first longitudinal signal and the second longitudinal signal is an ON signal and the other is an OFF signal (NO in S604 in FIG. 18), the document longitudinal direction Is determined to be “short” (S608 in FIG. 18).

  As shown in the drawing, when the size in the width direction of the document is A3 width, if the size in the longitudinal direction of the document is “long”, the size of the document is A3 and the size in the longitudinal direction of the document is “short”. ", The size of the document is A4.

  As described above, according to the image reading apparatus 100 of the present invention, the size of the document is determined from the difference or ratio between the light reception signals at the two lowered positions of the cover member 180. In other words, the light reception signals at the two lowered positions of the cover member 180 have the same value regardless of the color of the document. Therefore, the difference between the light reception signals at the two lowered positions is zero or the ratio is close to 1. Value. Therefore, the size of the document can be determined without being affected by the color of the document.

  Further, the size of the document is determined from the comparison values at the first light receiving position and the second light receiving position where disturbance light is not incident. That is, since the received light signal at a position where disturbance light does not enter is used, the size of the document can be determined regardless of the presence or absence of disturbance light. Further, since the size of the document is determined from the two comparison values, it is possible to easily determine the size of the document.

  Further, the size of the document is determined by determining whether or not the edge of the document is located outside the first light receiving position from the magnitude of the first comparison value. Specifically, it is determined whether or not the document size is A3 width. Accordingly, it is possible to easily determine whether the size of the document is A3 width without being affected by the color of the document and the disturbance light.

  Further, the size of the document is determined assuming that the edge of the document is at the second light receiving position where the amount of change in the second comparison value is greater than the second threshold. Specifically, when the size of the document is B4 width or less, the size of the document is determined by searching for the edge of the document. Thus, it is possible to easily determine the size of the document having a B4 width or less without being affected by the color of the document and the disturbance light.

  When it is determined that the second lowered position is a half-opened lowered position, the first threshold value is changed to determine the size of the document. That is, when a light reception signal is detected in the half-open state, the first threshold value for determining the document size can be changed to a value that matches the half-open state, and the document size can be determined. For this reason, it is possible to reduce the misjudgment when the cover is in the half-open state and judge the size of the document.

  Further, it is determined from the maximum width signal that is the second light receiving signal when light from a position outside the maximum document width of the document is received, whether or not the second lowered position is a lowered position in the half-open state. Here, even if a document is placed on the document placement unit 171, since the document is not placed at a position outside the maximum document width of the document, the value indicated by the maximum width signal does not change depending on the presence of the document. Therefore, it can be determined whether or not the document is half-opened regardless of whether or not there is a document.

  In the half-open state, the first threshold value is reduced, and the first comparison value is compared with the first threshold value to determine whether or not the document edge is located outside the first light receiving position. Thus, the size of the original is determined. For this reason, even in the case of the half-open state, the first threshold value for judging the document size is reduced to a value suitable for the half-open state, and whether the end of the document is outside the first light receiving position. The size of the document can be determined from whether or not.

  Further, when the first light receiving position is outside the B4 width and within the A3 width, and it is determined that the first comparison value is equal to or smaller than the first threshold after the reduction, the size of the document is the size of the A3 width. Judge. Here, since the first comparison value is more susceptible to the half-open state as the first light receiving position is on the outer side, in the case of the half-open state, there is a possibility of erroneously determining whether or not the document size is A3 width. Is expensive. For this reason, it is possible to reduce the misjudgment of whether or not the A3 width is obtained when the cover is in the half-open state, and to determine the size of the document.

  As described above, according to the present invention, the size of a document can be easily determined without being affected by the color of the document and disturbance light. In addition, it is possible to reduce the misjudgment in the case where the cover is half-opened, and to judge the size of the document.

  The image reading apparatus according to the present invention has been described based on the embodiment, but the present invention is not limited to this embodiment.

  That is, the embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  For example, in the present embodiment, the cover member 180 is lowered to the second lowered position so as to be completely closed. However, the cover member 180 may be lowered to the second lowered position so as to be in a half-open state. In this case, the half-open determination unit 105 determines that the cover member 180 has not been lowered to the predetermined second lowered position, so that the document size determination unit 106 reduces the first threshold value and reduces the document size. Judging.

  In the present embodiment, the document size determination unit 106 determines whether the size of the document is the A3 width, and searches for a size equal to or less than the B4 width if the size is not the A3 width. However, the document size determination unit 106 may determine whether the size of the document is a B4 width or less, and may determine whether the document size is an A3 width if it is not a B4 width or less.

  Further, in the present embodiment, disturbance light is incident on a position outside the B4 width and within the A3 width, and the document size determination unit 106 determines whether the document size is the A3 width size, or less than the B4 width. The size of the document is determined by determining whether or not the size of the document is. However, the disturbance light does not need to enter the position outside the B4 width and within the A3 width. For example, the disturbance light enters the position outside the A4 width and within the B4 width, and the document size determination unit 106 The size of the document may be determined by determining whether or not the size is equal to or larger than the A4 width.

  Further, in the present embodiment, the document size determination unit 106 searches for a change point using the case where the second light receiving position is at the boundary position of the non-incident area as a search start point, and determines the size of the document. However, the search start point is not limited to the case where the second light receiving position is at the boundary position of the non-incident area. For example, the document size determination unit 106 determines that the second light receiving position is at the end position of the B4 width. A change point may be searched as a search start point, and the size of the document may be determined.

  In the present embodiment, half-open determination unit 105 uses the second light reception signal when light from a position outside the maximum document width is received to determine whether the second lowered position is a lowered position in the half-open state. It was decided to judge. However, the half-open determination unit 105 determines whether or not the second lowered position is a lowered position in the half-open state using the second received light signal when light from a position within the maximum document width is received. May be. For example, when the second light receiving signal is used when light from a position within the maximum document width and outside the B4 width is used, if the document placed on the document placement unit 171 is a size of B4 width or less, It can be determined whether or not the second lowered position is a lowered position in a half-open state.

  In the present embodiment, the document size determination unit 106 determines the document size by reducing the first threshold. However, the document size determination unit 106 may determine the size of the document by reducing the second threshold value.

  In the present exemplary embodiment, document size determination unit 106 determines the size of the document by using the determination result of whether half-open state by half-open determination unit 105. However, when the half-open determination unit 105 determines that the image is half-open, when the scanner 17 reads the image data of the document, it increases the mask amount for reducing the black image caused by the disturbance light and outputs the image data. May be.

  The present invention can be used as an image reading apparatus, in particular, as an image reading apparatus that can easily determine the size of an original without being affected by the color of the original and disturbance light.

1, 2 Network MFP 3, 4 Terminal device 10 CPU
11 ROM
12 RAM
13 Modem 14 NCU
15 Operation Panel 16 Display 17 Scanner 18 Printer 19 LAN I / F
DESCRIPTION OF SYMBOLS 100 Image reader 101 Descent | fall position detection part 102 Irradiation part 103 Light reception signal detection part 104 Comparison value calculation part 105 Half-open determination part 106 Original size determination part 107 Longitudinal signal detection part 110 Data storage part 111 Light reception signal data 170 Reading mechanism part 171 Original Placement unit 172 Length sensor 173 Full rate carriage 174 Light source 175 CCD
178 Half-rate carriage 179 Condensing lens unit 180 Cover member 190 Document feeder

Claims (8)

An image including a document placement portion having a placement region for placing a document, a light source that irradiates the placement region, and a cover member that descends from above the document placement portion so as to cover the document. A reading device,
When the cover member is lowered to the first lowered position, the light from the placement area irradiated to the light source is received and a first light reception signal is detected, and the cover member is moved from the first lowered position. A light-receiving signal detector for detecting a second light-receiving signal by receiving light from the placement region irradiated to the light source when the light-lowering position is lowered to a second lowering position;
A comparison value calculation unit that calculates a comparison value indicated by a difference or a ratio between the detected first light reception signal and the second light reception signal;
The first comparison value, which is the comparison value when receiving light from the first light receiving position outside the non-incident area where the disturbance light is not incident, and the second light receiving position within the non-incident area, among the placement areas. A document size determination unit that determines the size of the document using a second comparison value that is the comparison value when light from the light source is received ,
The document size determination unit
By comparing the first comparison value with a predetermined first threshold value, it is determined whether the edge of the document is outside or inside the first light receiving position, and the size of the document is determined. ,
When it is determined that the end portion of the document is inside the first light receiving position, a change amount of the second comparison value obtained by changing the second light receiving position and a predetermined second threshold value The size of the original is determined by comparing
Images reader. The comparison value calculation unit is configured to obtain a value obtained by subtracting the first light reception signal from the second light reception signal when the light from the first light reception position is received or the second light reception signal as the first light reception signal. Calculating the first comparison value, which is the divided value;
The document size determination unit, when the first comparison value is equal to or less than the first threshold value, the determining the size of the original as first there is the end of the document outside the light receiving position, the first comparison The image reading apparatus according to claim 1, wherein when the value is larger than the first threshold value, the size of the document is determined based on an end of the document located inside the first light receiving position. The non-incident area is an area larger than B4 width and smaller than A3 width, and when the cover member is lowered to the first lowered position, the disturbance light is incident on a position outside the non-incident area and within the A3 width. And
The comparison value calculation unit calculates the first comparison value, which is a value obtained by dividing the second light reception signal by the first light reception signal when light from the first light reception position is received;
The image reading apparatus according to claim 2, wherein the document size determination unit determines that the size of the document is an A3 width when the first comparison value is equal to or less than the first threshold value. The comparison value calculation unit is configured to obtain a value obtained by subtracting the first light reception signal from the second light reception signal when the light from the second light reception position is received, or the second light reception signal as the first light reception signal. Calculating the second comparison value, which is the divided value;
As the document size determination unit, by the second light receiving position changes, the amount of change in the second comparison value is the end of the document to the second light receiving position that is greater than the second threshold value, The image reading apparatus according to claim 1, wherein the size of the document is determined. The document size determination unit sets the second light receiving position so that the second light receiving position is directed to the inside of the non-incident area, with the second light receiving position being at the boundary position of the non-incident area as a search start point. Is changed to search for a change point at which the amount of change in the second comparison value is greater than the second threshold, and it is assumed that there is an end of the document at the second light receiving position at the change point. The image reading apparatus according to claim 4, wherein the size is determined. The non-incident region is a region larger than B4 width and smaller than A3 width,
The comparison value calculation unit calculates the second comparison value, which is a value obtained by subtracting the first light reception signal from the second light reception signal when light from the second light reception position is received;
The document size determination unit changes the second light receiving position, searches for the change point where the change amount of the second comparison value is larger than the second threshold value, and performs the second light reception at the change point. The image reading apparatus according to claim 5, wherein a size of B4 width or less corresponding to the position is determined as the size of the document. further,
The lowered position of the cover member immediately before the cover member closes the document placement portion is detected as the first lowered position, and the lowered position of the cover member after the cover member closes the document placement portion. A lowering position detecting unit for detecting the lowering position as the second lowering position,
The light reception signal detection unit detects the first light reception signal when the lowering position of the cover member is detected as the first lowering position, and the lowering position of the cover member is the second lowering position. The image reading device according to any one of claims 1 to 6, wherein the second light receiving signal is detected. further,
When the cover member is lowered to the first lowered position and when the cover member is lowered to the second lowered position, the light source is moved forward from the lower side of the document placement portion toward the document or the cover member. An irradiation unit for irradiating the placement area is provided.
The light reception signal detection unit receives light of the light source reflected on the document or light of the light source reflected on the cover member when the cover member is lowered to the first lowered position. When the first light receiving signal is detected and the cover member is lowered to the second lowered position, the light of the light source reflected on the document or the light of the light source reflected on the cover member is received. The image reading apparatus according to claim 1, wherein the second light reception signal is detected.

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