JPH10336388A - Image reading device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To exactly detect the state of a light source without depending on the environment of surrounding temperature or the like by judging light source luminance according to the difference of the read values of the colors of first and second reference color members. SOLUTION: White and black members 12 and 13 are irradiated by a light source 11, and the reflected lights are read by a CCD 17, and whether or not a difference ΔV of the reflected lights reaches a reference value V0 is judged, and the rising state of the light source 11 is checked. Then, it is possible to judge whether or not a dynamic range necessary for a processing after actual image reading can be obtained without depending on any surrounding temperature or the lapse deterioration of the light source 11, or without any actual image reading in a rising period just after the power supply of the light source 11. Also, the rising end of the light source 11 is communicated by a displaying part 25 according to the rising end of the light source 11. Thus, a user can start the reading of a read original just after the rising end of the light source 11. Also, the life of the light source 11 can be predicted from the difference of the read values of the white member 12 and the black member 13 and the previous values, each time, and reference value.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used in a copying machine, a facsimile, an OCR device, various recognition devices, and the like, and irradiates a reading original with light and obtains image information of the reading original from reflected light. It is about.

[0002]

2. Description of the Related Art In image reading apparatuses used for copying machines, facsimile machines, OCR apparatuses, and various recognition apparatuses,
Image information is obtained by irradiating light to be read from a light source onto a read original, receiving the reflected light by a light receiving element, and converting an optical signal into an electric signal.

In order to obtain stable image information in the above-described image reading apparatus, it is necessary to stabilize the brightness of the light source. It deteriorates with it. If the luminance of the light source becomes insufficient due to the above deterioration, the dynamic range of the read value of the image also becomes narrow. Therefore, the luminance of the light source is periodically measured to detect the life of the light source. Need to be replaced.

Here, as a method of detecting the life of the light source, Japanese Patent Application Laid-Open Nos. 4-58663 and 7-87 are disclosed.
No. 267 discloses a method. In these publications,
Light from a light source is irradiated to a white member provided inside the image reading apparatus, and the life of the light source is detected from the reflected light.
That is, when the life of the light source is detected, the same white member is irradiated with light. Therefore, if the luminance of the light source is constant, the read value of the reflected light is constant. However, as described above, since the luminance of the light source deteriorates with the lapse of time,
In order to make the reading of the reflected light constant, it is necessary to adjust the brightness of the light source, the amplification factor of the electric signal output from the light receiving element, and the like.

Therefore, according to the method described in Japanese Patent Application Laid-Open No. 4-58663, when the life of the light source is detected, a control signal to be supplied to a D / A converter for controlling the brightness of the light source is set to a predetermined reference value. The life of the light source is determined by comparison.

In the method described in Japanese Patent Application Laid-Open No. 7-87267, when the life of the light source is detected, the amplification factor of the amplifying device for the read analog signal is compared with a preset reference value. , The life of the light source is determined.

[0007]

However, in the above-mentioned conventional configuration, in order to detect the life of the light source, a white member is irradiated with light, and information (control signal or amplification factor) obtained from the reflected light is obtained. Although the life of the light source is determined based on the absolute value, such an absolute value is affected by the ambient temperature and the like, so that there is a problem that accurate determination cannot be performed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an image reading apparatus capable of accurately detecting the state of a light source without being affected by an ambient temperature or the like. To provide.

[0009]

According to a first aspect of the present invention, there is provided an image reading apparatus which irradiates light to be read from a light source to an object to be read, reads reflected light thereof by image input means, and reads image information of the object to be read. In order to solve the above-described problem, the light source irradiates the light from the light source when the reading position is not supplied to the reading position. A first reference color member, a second reference color member disposed at the reading position alongside the first reference color member, and having a surface of a color different from the first reference color member; Calculating means for calculating the difference between the read values obtained by reading the reflected light of the light applied to the first and second reference color members by the image input means; In reading things, A storage unit for storing a reference value serving as a criterion for determining whether or not the luminance of the light source is appropriate; a difference between a read value calculated by the calculation unit and a reference value stored in the storage unit; And a comparison determining means for determining whether or not the luminance of the light source is appropriate.

With the above arrangement, when the light from the light source irradiates the first and second reference color members, the reflected light is read by the image input means. Further, the difference between these read values is calculated by the calculation means, and the calculated difference between the read values is compared with the reference value stored in the storage means by the comparison determination means. At this time, if the difference between the read values is smaller than the reference value, it is determined that the dynamic range obtained by the current luminance of the light source is insufficient for the image reading apparatus to perform stable image reading.

Thus, the image reading apparatus determines the brightness of the light source based on the difference between the read values of the two types of colors of the first and second reference color members, so that the image reading apparatus can adjust to the environment such as the ambient temperature. It is possible to determine whether the required dynamic range is obtained in the processing after actually reading the image, without depending on it and without reading the actual image.

According to a second aspect of the present invention, in addition to the configuration of the first aspect, when the power of the image reading apparatus is turned on, the comparison / determination means compares the difference between the read values with a reference value and performs the reading. When the value difference becomes larger than the reference value, it is determined that the rise of the light source is completed.

With the above arrangement, when the power of the image reading apparatus is turned on, the comparison / determination means compares the difference between the read values and the reference value, and the difference between the read values becomes larger than the reference value. Sometimes, it is determined that the rise of the light source has been completed. Thus, when the rise of the light source is detected, a display notifying the user of the completion of the rise of the light source is displayed, or the reading of a document set in advance on the document table of the image reading apparatus is performed. Is automatically started, after the light source completes startup,
The reading of the document can be started immediately.

According to a third aspect of the present invention, in addition to the configuration of the first aspect, the image reading apparatus further includes rising detection means for detecting that a rising period of the light source has elapsed. After detecting that the rising period of the light source has elapsed, when the difference between the read values becomes smaller than the reference value, it is determined that the light source has reached the end of its life.

According to the above configuration, when the rising detecting means detects that the rising period of the light source has elapsed, the comparing and judging means determines that the light source reaches the end of its life when the difference between the read values becomes smaller than a reference value. Judge that you have done. Thus, when the end of the life of the light source is detected, a display notifying the user of the end of the life of the light source is displayed, or switching to a spare light source previously installed in the image reading apparatus is performed. Thus, even if the light source in use reaches the end of its life, switching to a new light source can be performed immediately.

According to a fourth aspect of the present invention, in addition to the configuration of the first aspect, furthermore, a saturation detecting means for detecting that one of the first and second reference color members is saturated. And the comparison / determination unit determines that the difference between the read values becomes smaller than the reference value after the saturation detection unit detects that the read value of one of the first and second reference color members is saturated. Is determined to require adjustment of the brightness of the light source.

With the above arrangement, when the saturation detecting means detects that one of the first and second reference color members has been saturated, the comparison / judgment means determines that the difference between the read values is smaller. When it becomes smaller than the reference value, it is determined that the luminance of the light source needs to be adjusted. Thereby, when the necessity of the adjustment of the luminance of the light source is detected, a display notifying the user that the adjustment of the luminance of the light source is necessary is performed, or the adjustment of the luminance of the light source is automatically performed. In this case, the luminance of the light source in use can be maintained at an appropriate level for reading an image.

According to a fifth aspect of the present invention, there is provided an image reading apparatus which irradiates light to be read from a light source to an object to be read, reads the reflected light by image input means, and obtains image information of the object to be read. A first reference color member that is arranged at a reading position where light from a light source is irradiated, and is irradiated with light from the light source when the reading target is not supplied to the reading position; A second reference color member having a surface with a color lower in brightness than the first reference color member, and light emitted to the first and second reference color members. Calculating means for calculating a difference between these read values from reading values obtained by reading the reflected light by the image input means, time measuring means for measuring time, and an image reading device for reading an object to be read. Above, the brightness of the light source Is stored as a reference value serving as a criterion for judging whether or not is appropriate, a difference between two read values calculated by the calculating means at fixed time intervals, and a time counted by the time measuring means at the time of the calculation. And a prediction unit for predicting the end of the life of the light source based on the difference between the reference value stored in the storage unit, the read value, and the time.

According to the above arrangement, when the light from the light source irradiates the first and second reference color members, the reflected light is read by the image input means. Further, a difference between these read values is calculated by the calculating means. The above calculation is performed twice at a fixed time interval, and the difference between the calculated read values is stored in the storage unit together with the time at the time of the calculation. The predicting means predicts when the life of the light source is reached based on the reference value stored in the storage means, the difference between the read values, and the time.

Thus, the image reading apparatus can prepare a replacement light source based on the prediction before the light source reaches the end of its life.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION

(Embodiment 1) An embodiment of the present invention will be described below with reference to FIGS. As shown in FIG. 2, the image reading device according to the present embodiment
The apparatus has a document table 1 on which a document to be read is placed, and a discharge tray 2 from which the document after the image is read is discharged. The read originals placed on the original mounting table are sent one by one from the image feed port 3 into the image reading apparatus, where the images are read, and then discharged onto the discharge tray 2.

Further, the internal structure of the image reading apparatus will be described. As shown in FIG. 3, the image reading apparatus includes a light source 11, a white member (first reference color member) 12, a black member (second reference color member) 13, a conveyance roller 14 for conveying a document to be read, and a reading device. The reflected light of the light applied to the original
(Charge Coupled Device) 17 is provided with a reflection mirror 15 and a lens 16 which lead to a CCD 17, and a paper detection sensor. The two light sources 11 are arranged (see FIG. 1), only one of which is used for irradiating the original, and the other light source 11 is a spare light source for replacement.

When reading a document, the read document is
The sheet is conveyed by the conveying roller 14 along the conveying path of the image reading apparatus (the two-dot chain line in FIG. 3). At this time, the light from the light source is irradiated on the reading original, and the light (indicated by an arrow in FIG. 3) irradiated on the reading position A is incident on the CCD 17 via the reflection mirror 15 and the lens 16. Further, the white member 12 and the black member 13 are arranged side by side on the reading position A along the conveyance path of the read document, and when the luminance of the light source is detected, the read document is placed in the image reading device. Without being supplied, the light from the light source irradiates the white member 12 and the black member 13.

Next, the circuit configuration of the image reading apparatus will be described. As shown in FIG. 1, the image reading apparatus includes an A / D converter 18, a processing unit 19, a clock unit 20, a memory 21, an open / close circuit 22, a dimming circuit 23, and a light source switching circuit 2.
4 and a display unit 25.

The A / D converter 18 converts an analog electric signal output from the CCD 17 that has received the reflected light into a digital signal and sends the digital signal to the processor 19. The processing unit 19
Performs various calculations and control of each unit. The above timer 20
Keeps time. The memory 21 stores a reference value V ₀ , a previously stored difference value V ₁ , a previously stored time T
₁ , difference value V ₂ stored this time, time T stored this time
₂ (V ₁ , T ₁ , V _2, and T ₂ will be described later in a fourth embodiment). Here, the processing unit 19 corresponds to an operation unit and a comparison determination unit described in claims, and the memory 21 corresponds to a storage unit. Further, the above C
The CD 17 and the A / D converter 18 constitute an image input unit.

The reference value V ₀ is the minimum required luminance of the light source 11 for properly reading the image of the read document in the image reading apparatus according to the present embodiment. The difference between the read values when the member 13 is irradiated, that is, the minimum value of the dynamic range.

The switching circuit 22, the dimming circuit 23, and the light source switching circuit 24 operate under the control of the processing unit 19, and the switching circuit 22 controls turning on and off of the light source 11, and controls the dimming circuit. 23 controls the brightness of the light source 11, and the light source switching circuit 24 controls the light source 11 in use.
Is switched to the spare light source 11.

Note that the above-described configuration is similar to that of Embodiment 2 described later.
This is common to the first to fourth embodiments, and the description of the above configuration is omitted in each of the second to fourth embodiments.

Light source 11 used in the above image reading apparatus
In the rising period immediately after the power is turned on, the luminance is not sufficient, and the dynamic range of the read image is narrow. Therefore, immediately after the power is turned on, there is a certain period of time (usually several minutes) and a period during which the image is not suitable for reading. That is, as shown in FIG. 4, during the rising period of the light source, the brightness of the light source is small, so that the white member 1
2 and the reading value of the reflected light applied to the black member 13 are both small, and the difference ΔV between these reading values is also small.

In the image reading apparatus according to this embodiment, the rising of the light source is performed by the white member 12 and the black member 13.
Can be detected from the reflected light of the light applied to the light source. The detection method will be described below with reference to the flowchart of FIG.

First, the light of the light source 11 is applied to the white member 12 and the black member 13, and the reflected light of the white member 12 and the reflected light of the black member 13 are read by the CCD 17 (S 17).
1, S2). The two read values are stored in the A / D converter 1
At 8, the analog signal is converted into a digital signal and sent to the processing unit 19. The processing unit 19 calculates the difference ΔV (see FIG. 4) between the read values of the white member 12 and the black member 13 (S3).

Subsequently, the processing unit 19 reads the reference value V ₀ from the memory 21 and compares the reference value V ₀ with the difference ΔV between the read value (S4). At this time, if the difference ΔV is smaller than the reference value V ₀ (NO in S4), the processing unit 19 determines that the light source 11 is in the rising period, returns to S1, and returns to S4. Steps S1 to S4 are repeated until ΔV becomes equal to or more than the reference value V ₀ . When the difference ΔV is equal to or larger than the reference value V ₀ (YES in S4), the processing unit 19 determines that the rising period of the light source 11 has elapsed, and the liquid crystal disposed on the outer surface of the image reading apparatus. The display unit 25 (see FIG. 1) such as a panel notifies the user that the rising of the light source 11 is completed. The user operates the image reading apparatus according to the notification of the display unit 25 so that the image reading apparatus starts the reading operation of the read original. With this operation, the image reading apparatus starts conveying the read document (S5).

As described above, the image reading apparatus according to the present embodiment irradiates the white member 12 and the black member 13 with the light source 11, reads the reflected light with the CCD 17, and obtains the difference ΔV between the reflected light. The rising state of the light source 11 is checked by determining whether or not the reference value V ₀ has been reached. Accordingly, during the rising period immediately after the power of the light source 11 is turned on, the processing after reading the image is performed without depending on the ambient temperature or the degree of deterioration with time of the light source 11 and without reading the actual image. It is possible to determine whether the required dynamic range is obtained.

When the rising of the light source 11 is completed, the image reading apparatus notifies the user of the completion of the rising of the light source 11 through the display unit 25. Thus, the user can start reading the read document as soon as the rising of the light source 11 is completed.

In the present embodiment, when the rising of the light source 11 is completed, the operation is notified to the user through the display unit 25, and the reading operation of the original is started. Although the configuration is such that the user is prompted to perform the operation, the image reading apparatus may automatically start the reading operation of the document at the same time when the start of the light source 11 is completed.

That is, as in the above example, the display unit 25
If the rise of the light source 11 is detected and the reading of the document is automatically started at the same time as the rise of the light source 11 is notified to the user, the reading of the document can be started more efficiently.

In the first embodiment, the method of detecting the rising of the light source 11 from the reflected light of the light applied to the white member 12 and the black member 13 has been described. It is also possible to detect deterioration of the light source 11 by light and replace the light source 11 whose life has expired based on the detection. The above operation will be described in a second embodiment below.

(Embodiment 2) Another embodiment of the present invention will be described below with reference to FIGS.

As shown in FIG. 6, the brightness of the light source 11 used in the image reading apparatus according to the present embodiment deteriorates with time and is eventually cut off when viewed in units of hundreds to thousands of hours. If the image of the read document is read with the light source 11 turned off, the read image becomes completely black. Therefore, if the user notices this and replaces the light source 11, it is the simplest method of replacing the light source 11. However, in this case, it is necessary to read a useless image to know that the light source 11 has been cut off.

Further, even if the light source 11 does not reach the point where the light source 11 is cut off, if the luminance of the light source 11 is not sufficient, the dynamic range of the value obtained by reading the image of the read document becomes narrow, leading to a decrease in reading accuracy. . Therefore, the light source 11
It is necessary to detect the deterioration of the light source 11 and quickly replace the light source 11 whose life has expired.

The above operation will be described in detail with reference to the flowchart of FIG.

First, the process waits until the rising of the light source 11 is completed (S11). Completion of the rise of the light source 11 may be detected by the detection operation of the above-described first embodiment. Alternatively, after turning on the power of the image reading apparatus, a predetermined time is measured by the timer 20 and the predetermined time is measured. The light source 11 may be considered to have risen with the passage of.
When the rising of the light source 11 is detected by the detecting operation of the first embodiment, the configuration of claim 2 corresponds to the rising detecting means of claim 3. In addition, clock section 2
When the rising of the light source 11 is detected based on the timing of 0, the timer 20 corresponds to the rising detecting means.

When the light source 11 rises (Y in S11)
ES), the light of the light source 11 is irradiated on the white member 12 and the black member 13, and the reflected light of the white member 12 and the reflected light of the black member 13 are read by the CCD 17 (S12, S12).
13). The read values are converted from an analog signal to a digital signal by the A / D converter 18 and are processed by the processing unit 1.
9 is sent. The processing unit 19 calculates the difference ΔV (see FIG. 6) between the read values of the white member 12 and the black member 13 (S14).

Subsequently, the processing section 19 reads the reference value V ₀ from the memory 21 and compares the reference value V ₀ with the difference ΔV between the read value (S15). At this time, if the difference ΔV is smaller than the reference value V ₀ (NO in S15),
The processing unit 19 determines that the luminance of the light source 11 has deteriorated to a level at which the light source 11 needs to be replaced. Then, the processing unit 19 notifies the outside of the deterioration of the light source 11 via the display unit 25 (S16), and switches the used light source from the deteriorated light source 11 to the spare light source 11 by the light source switching circuit (S17). ).

If the difference ΔV is equal to or greater than the reference value V ₀ (YES in S15), the processing unit 19 determines that the brightness of the light source 11 has not deteriorated to a level that requires replacement of the light source 11. Judge. Then, the processing unit 19 notifies the outside that the light source 11 has not deteriorated via the display unit 25 (S18). The timer 20 counts the time until a predetermined time for measuring the deterioration of the light source 11 has elapsed again (S19). When the predetermined time has elapsed, the process returns to step S12.

As described above, the image reading apparatus according to the present embodiment irradiates the white member 12 and the black member 13 with the light source 11, reads the reflected light with the CCD 17, and finds the difference ΔV between the reflected lights. By determining whether or not the reference value V ₀ has been reached, the life due to the deterioration of the light source 11 is detected. As a result, it is possible to detect a decrease in luminance due to the deterioration of the light source 11 with time, and determine whether or not a dynamic range required in a process of actually reading an image of a read document can be obtained.

Further, the image reading apparatus according to the present embodiment has a spare light source 11 and a light source switching circuit 24 for switching the light source 11, and can switch the light source according to the result of the life detection. Thereby, the light source 1 in use
Since the light source 11 is switched to the spare light source before the light source 1 is turned off, it is possible to avoid a situation in which the light source 11 is turned off during use of the image reading apparatus and reading of the document becomes impossible.

Further, the deterioration of the light source 11 is several hundred hours.
Although it occurs every several thousand hours, it is not necessary to check the degree of deterioration of the light source 11 every time an image is read. However, the user has to perform an operation of periodically checking the degree of deterioration of the light source 11 in such a long cycle. It is difficult to do. Therefore, the image reading apparatus according to the present embodiment is configured to perform time management by the timer unit 20 and check the degree of deterioration of the light source 11 at predetermined time intervals. Thereby, the deterioration degree of the light source 11 is checked at appropriate time intervals.

In the second embodiment, the method of detecting the life of the light source 11 from the reflected light of the light applied to the white member 12 and the black member 13 has been described. It is also possible to detect a change in the brightness of the light source 11 with the light and adjust the brightness of the light source 11 based on the detection. The above operation will be described in the following third embodiment.

(Embodiment 3) Another embodiment of the present invention will be described below with reference to FIGS.

When the image reading apparatus according to this embodiment is used continuously for several hours to several tens of hours, the brightness of the light source 11 used in the image reading apparatus is, as shown in FIG. It increases with time due to factors such as heat generation.
If such an increase in the luminance of the light source 11 is left as it is, the read value on the white side is saturated, but the read value on the black side is not saturated and continues to increase. For this reason, after saturation of the read value on the white side, the dynamic range between the two becomes narrower. If the dynamic range becomes smaller than the reference value V ₀ , accurate image reading cannot be performed. Therefore, adjustment for suppressing an increase in luminance of the light source 11 is required.

In FIG. 8, it is assumed that the processing is started from the time when the rise of the light source 11 is completed, and the difference between the first reading in FIG. 8 is the reference value V _{0 of the} dynamic range.
Greater than. Until the read value on the white side is saturated, the rate of increase of the read value on the white side tends to be greater than the rate of increase of the read value on the black side, that is, the dynamic range tends to become wider.

The above operation will be described in detail with reference to the flowchart of FIG.

The light from the light source 11 is applied to the white member 12 and the black member 13, and the reflected light from the white member 12 is first converted to CC light.
It is read by D17 (S21). The value read by the CCD 17 is converted from an analog signal to a digital signal by an A / D converter 18 and sent to a processor 19. The processing unit 19 determines whether the read value of the white member 12 is saturated (S22). Note that whether or not the read value is saturated is determined, for example, by the following method. That is, the read value of the white member 12 at the time of the previous determination is stored in the memory 21 and
The current read value and the previous read value stored in the memory 21 are compared, and if they are equal, it is determined that the read value of the white member 12 is saturated. Here, the processing unit 19 and the memory 21 constitute a saturation detecting unit according to a fourth aspect.

If the read value of the reflected light of the white member 12 is saturated (YES in S22), the reflected light of the black member 13 is read by the CCD 17 (S23). The read value is converted from an analog signal to a digital signal by the A / D converter 18 and sent to the processor 19. The processing unit 19 calculates the difference ΔV (see FIG. 6) between the read values of the white member 12 and the black member 13 (S2).
4).

Subsequently, the processing section 19 reads the reference value V ₀ from the memory 21 and compares the reference value V ₀ with the difference ΔV between the read value (S25). At this time, if the difference ΔV is equal to or larger than the reference value V ₀ (YE in S25).
S), the processing unit 19 determines that the adjustment of the luminance of the light source 11 is not necessary. Then, the processing unit 19 notifies the outside via the display unit 25 that the adjustment of the brightness of the light source 11 is not necessary (S26).

If the difference ΔV is smaller than the reference value V ₀ (NO in S25), the processing section 19 determines that the brightness of the light source 11 needs to be adjusted. Then, the processing unit 19 notifies via the display unit 25 that the brightness of the light source 11 needs to be adjusted (S27), and performs control for adjusting the brightness of the light source 11.

As the above control, first, at S28, the light source 1
1 is determined. The adjustment method includes, for example, a method of directly adjusting the luminance of the light source 11 and a method of temporarily turning off the light source 11 while the image reading apparatus is not performing the reading operation of the read document. Of the light source 11 to suppress an increase in the brightness of the light source 11.

If the former method is selected in S28,
The processing unit 19 adjusts the luminance of the light source 11 via the dimming circuit 23 (S29). If the latter method is selected in S28, the processing unit 19 transmits the light source 1 via the opening / closing circuit 22.
1 is switched ON / OFF (S30).

As described above, the image reading apparatus according to the present embodiment irradiates the white member 12 and the black member 13 with the light source 11, reads the reflected light with the CCD 17, and finds the difference ΔV of the reflected light. By determining whether or not the reference value V ₀ has been reached, a change in luminance due to the self-heating of the light source 11 can be detected, and a dynamic range required in a process of actually reading the image of the read document can be obtained. You can judge whether. Thereby, it is detected whether or not the brightness of the light source 11 needs to be adjusted.

When it is determined that the brightness of the light source 11 needs to be adjusted, it is difficult to rely on the user's operation. Therefore, the image reading apparatus compares the difference between the read values of the white member 12 and the black member 13 with the reference value V _0, and adjusts the luminance of the light source 11 based on the comparison result. Is turned on / off.

That is, in the method of adjusting the luminance of the light source 11, if the difference ΔV between the read values of the white member 12 and the black member 13 becomes smaller than the reference value V ₀ (or
If the difference ΔV approaches the reference value V ₀ to a predetermined value),
The processing unit 19 controls the light source 11 via the dimming circuit 23,
This situation is avoided by lowering the brightness of the light source 11. At the time of the above-described adjustment control, the read value of the white member 12 is saturated. If the luminance of the light source 11 is reduced in this state, only the read value of the black member 13 is reduced. ΔV increases.

On the other hand, in the method of turning on / off the light source 11, if the difference ΔV between the read values of the white member 12 and the black member 13 is smaller than the reference value V ₀ (or, if the difference ΔV is smaller than the reference value V When the value approaches _{0 (} a predetermined value), the processing unit 19 turns on / off the light source 11 via the opening / closing circuit 22. That is, the increase in the brightness of the light source 11 is caused by self-heating when the light source 11 is continuously turned on for a long time. Therefore, the light source 11 is turned off except when the image reading apparatus is performing a document reading operation. If so, the self-heating of the light source 11 can be suppressed, and an increase in luminance can be reduced.

In either of the above adjusting methods, when the image reading apparatus is used continuously for a long time, the user can always read the image stably without adjusting the brightness of the light source 11.

In the third embodiment, the method for detecting whether or not the luminance of the light source 11 needs to be adjusted based on the reflected light of the light applied to the white member 12 and the black member 13 has been described. Such an image reading apparatus can further predict the life of the light source 11 based on the reflected light. The above operation will be described in a fourth embodiment below.

(Embodiment 4) Another embodiment of the present invention will be described below with reference to FIG. 1, FIG. 6 and FIG.

The image reading apparatus described in the second embodiment detects the life of the light source 11 and switches the light source 11 in use to the spare light source 11 based on the detection result. However, not all of the image reading apparatuses according to the present invention have the spare light source 11, and some image reading apparatuses do not have the spare light source 11.

In such an image reading apparatus, when the life of the light source 11 is detected, the processing section 19 displays on the display section 25 that the life of the light source 11 has expired. The user recognizes from the display that the life of the light source 11 has come to an end.
Replace 1 However, in this case, even if it is displayed on the display unit 25 when the life of the light source 11 has expired, it does not make sense if the replacement light source 11 is not prepared at that time. Therefore, in such a case, the light source 11
It is effective to predict the life of the battery and display the prediction result.

The above operation will be described in detail with reference to the flowchart of FIG.

First, it waits until the rise of the light source 11 is completed (S31). Completion of the rise of the light source 11 is regarded as the rise of the light source 11 after a lapse of a predetermined time after the power of the image reading apparatus is turned on.

When the light source 11 rises (Y in S31)
ES), the light of the light source 11 is applied to the white member 12 and the black member 13, and the reflected light of the white member 12 and the reflected light of the black member 13 are read by the CCD 17 (S32, S
33). The read values are converted from an analog signal to a digital signal by the A / D converter 18 and are processed by the processing unit 1.
9 is sent. The processing section 19 calculates the difference ΔV (see FIG. 6) between the read values of the white member 12 and the black member 13 (S34).

[0072] The difference calculated above S34 [Delta] V is stored as the value V ₂ of this stored difference in the memory 21 (S3
5). Further, the processing unit 19 reads the time when this from the clock unit 20 as clock means (S36), and stores in the memory 21 the read time as time T _2, which the stored time (S37).

Here, the processing unit 19 as a prediction unit
Reads the difference value V ₁ and the time T ₁ stored in the memory 21 at the time of the previous detection from the memory 21, and reads the previously stored difference value V ₁ , the last stored time T ₁ , and the currently stored difference than the value V _2, the time T ₂ and the reference value V ₀ stored time, based on equation (1) below, the light source 11 to predict the time T _x would reach life (S38).

T _x = ((T ₂ −T ₁ ) / (V ₂ −V ₁ )) V ₀ − (V ₁ · T ₂ −V ₂ · T ₁ ) / (V ₂ −V ₁ ) (1) the formula (1) time T _x calculated by is notified to the outside through the display unit 25 as a prediction result (S3
9). Then, the processing unit 19 calculates the difference value V ₂ stored this time.
The newly replaced the previous value V ₁ of the stored difference, also replace the time T _2, which is stored this time T ₁ in which the previously stored (S40). Thus, preparations are made for the next prediction.

As described above, the image reading apparatus according to the present embodiment is configured such that the difference V ₂ between the read values of the white member 12 and the black member 13 obtained at a certain time T ₂ and the time T ₁ earlier than the difference V ₂ are obtained. From the obtained difference V ₁ between the read values of the white member 12 and the black member 13, it is possible to predict the life end time of the light source 11.

Thus, even in an image reading apparatus having no spare light source 11, based on the above-described prediction result,
If the replacement light source 11 is prepared, it is possible to avoid a situation in which the light source 11 cannot be replaced when the life of the light source 11 has expired.

In the above example, the lifetime reaching time of the light source 11 is predicted and the lifetime reaching time is displayed every time the prediction is performed. Alternatively, a warning may be displayed when the time becomes shorter than a predetermined time set in advance.

In each of the first to fourth embodiments,
The two reference colors for calculating the difference ΔV between the read values are
Although the color is white and black, the present invention is not limited to this, and members of other colors may be used. However,
When white and black members are used, the difference between the colors is large, and the difference between the read values directly indicates the dynamic range, so that a highly accurate difference value can be obtained.

It is not necessary to use the same reference value V ₀ in each of the above embodiments, but a plurality of different reference values V ₀ are stored in the memory 21 and used depending on the purpose. be able to. For example, in the third embodiment, the reading value of the white member 12 is saturated. In this case, the reading value is not suitable for reading a multi-tone image, but is suitable for reading a black and white original such as text. . Therefore, the image reading in this case is
It only needs to be able to judge whether it is black or white, and there is no need to take a very large dynamic range. Therefore, reference value V _{0 in the} third embodiment can be made smaller than reference value V ₀ in the other embodiments.

[0080]

As described above, the image reading apparatus according to the first aspect of the present invention is disposed at the reading position where the light of the light source is irradiated.
A first reference color member irradiated with light from the light source when the reading target is not supplied to the reading position; and a first reference color member arranged at the reading position along with the first reference color member. A second reference color member having a surface having a color different from that of the first reference color member, and reading obtained by reading reflected light of light applied to the first and second reference color members by the image input means. A calculating means for calculating a difference between these read values from the values, and a reference value serving as a criterion for judging whether or not the luminance of the light source is appropriate when the image reading apparatus reads an object to be read is stored. Storage means, and comparison determination means for comparing the difference between the read values calculated by the calculation means and the reference value stored in the storage means to determine whether or not the luminance of the light source is appropriate. It is a configuration provided.

Therefore, the image reading apparatus does not depend on the environment such as the ambient temperature and the like, and does not read the actual image, but has a dynamic range necessary for processing after actually reading the image. It is possible to determine whether or not it can be obtained.

According to a second aspect of the present invention, as described above, in addition to the configuration of the first aspect, when the power of the image reading apparatus is turned on, the difference between the read value and the reference value And when the difference between the read values becomes larger than the reference value, it is determined that the rise of the light source has been completed.

Therefore, in addition to the effect of the first aspect, when the rise of the light source is detected, a display notifying the user of the completion of the rise of the light source is displayed or the image is displayed. If the reading of the document set in advance on the document table of the reading device is automatically started, the reading of the document can be started immediately after the start of the light source is completed.

According to a third aspect of the present invention, as described above, in addition to the configuration of the first aspect, the image reading apparatus further includes a rising detecting means for detecting that a rising period of the light source has elapsed. The determination means is configured to determine that the light source has reached the end of its life when the difference between the read values becomes smaller than a reference value after the rise detection means detects that the rise period of the light source has elapsed.

Therefore, in addition to the effect of the first aspect, when the end of the life of the light source is detected, a display notifying the user of the end of the life of the light source is displayed, or the image reading device is used. If the light source is switched to a spare light source that is installed in advance, an effect can be obtained that the light source can be switched to a new light source immediately even when the light source in use reaches the end of its life.

According to a fourth aspect of the present invention, as described above, in addition to the configuration of the first aspect, the read value of one of the first and second reference color members is further saturated. The saturation detecting means for detecting that the reading value of one of the first and second reference color members has been saturated, and When the difference becomes smaller than the reference value, it is determined that it is necessary to adjust the luminance of the light source.

Therefore, in addition to the effect of the first aspect, when the necessity of adjusting the luminance of the light source is detected, the user is notified that the adjustment of the luminance of the light source is necessary. If the display is performed or the adjustment of the brightness of the light source is automatically performed, the brightness of the light source in use can be maintained at an appropriate level when reading an image.

The image reading apparatus according to the fifth aspect of the present invention is arranged at the reading position where the light of the light source is irradiated, and when the object to be read is not supplied to the reading position, the light from the light source is emitted. A first reference color member to be irradiated with the first reference color member and the first reference color member at the reading position.
A second reference color member having a surface with a color lower in brightness than the reference color member, and a reflection light of light applied to the first and second reference color members, which are read by the image input means. Calculating means for calculating the difference between these read values from the read values to be read, time measuring means for measuring the time, and whether the brightness of the light source is appropriate for the image reading apparatus to read the object to be read. Storage means for storing a reference value serving as a criterion for determining the difference between the two read values calculated by the calculation means at fixed time intervals, and a time measured by the time measurement means during the calculation; A difference between the reference value stored in the storage means and the read value,
A prediction unit that predicts when the life of the light source reaches the end based on the time.

Therefore, in the image reading apparatus, since the light source can be predicted before the end of its life, it is possible to prepare a replacement light source based on the prediction.

[Brief description of the drawings]

FIG. 1 illustrates one embodiment of the present invention, and is a block diagram illustrating a circuit configuration of an image reading apparatus.

FIG. 2 is a perspective view illustrating an appearance of the image reading apparatus.

FIG. 3 is a sectional view illustrating a schematic configuration of the image reading apparatus.

FIG. 4 is an explanatory diagram showing a change in luminance during a rising period of a light source used in the image reading apparatus.

FIG. 5 is a flowchart showing an operation when detecting the rising of the light source.

FIG. 6 is an explanatory diagram showing a decrease in luminance due to deterioration over time due to long-term use of the light source.

FIG. 7 is a flowchart showing an operation when detecting the end of life of the light source due to the deterioration with time of the light source.

FIG. 8 is an explanatory diagram showing a change in luminance due to self-heating accompanying long-term use of the light source.

FIG. 9 is a flowchart showing an operation when adjusting a change in luminance of the light source due to self-heating of the light source.

FIG. 10 is a flowchart showing an operation when predicting the life end of the light source due to the deterioration of the light source with time.

[Explanation of symbols]

Reference Signs List 11 light source 12 white member (first reference color member) 13 black member (second reference color member) 17 CCD (image input unit) 18 A / D conversion unit (image input unit) 19 processing unit (computation unit, comparison) Judgment means, saturation detection means, prediction means) 20 clock section (rising detection means, clocking means) 21 memory (storage means, saturation detection means)

Claims (5)

[Claims] 1. An image reading apparatus for irradiating light to be read from a light source to an object to be read and reading reflected light thereof by image input means to obtain image information of the object to be read. A first reference color member that is arranged at a reading position and is irradiated with light from the light source when the object to be read is not supplied to the reading position; A second reference color member having a surface of a color different from that of the first reference color member, and a reflected light of light applied to the first and second reference color members, Means for calculating the difference between these readings from the readings obtained by the reading means; and determining whether the brightness of the light source is appropriate for the image reading apparatus to read the object to be read. Enter the reference value to be the reference. Storage means for storing, and a comparing and judging means for comparing the difference between the read values calculated by the calculating means and the reference value stored in the storing means to judge whether or not the luminance of the light source is appropriate. An image reading apparatus comprising: 2. The method according to claim 1, wherein the comparing and judging means compares the difference between the read values and a reference value when the power of the image reading apparatus is turned on. When the difference between the read values becomes larger than the reference value, the rise of the light source is started. 2. The image reading apparatus according to claim 1, wherein it is determined that the image reading is completed. 3. The apparatus according to claim 2, further comprising a rising detecting means for detecting that a rising period of the light source has elapsed, wherein said comparing and judging means includes detecting that the rising period of the light source has elapsed. 2. The image reading apparatus according to claim 1, wherein when the difference between the read values becomes smaller than the reference value, it is determined that the light source has reached the end of its life. 4. A saturation detecting means for detecting that one of the first and second reference color members has become saturated, and a comparing and judging means, wherein the saturation detecting means comprises: And determining that the luminance of the light source needs to be adjusted when the difference between the read values becomes smaller than the reference value after detecting that one of the read values of the second reference color member is saturated. The image reading device according to claim 1, wherein: 5. An image reading apparatus for irradiating light to be read from a light source to an object to be read and reading the reflected light by image input means to obtain image information of the object to be read. A first reference color member that is arranged at a reading position where the object to be read is not supplied to the reading position and is irradiated with light from the light source; And a second reference color member having a surface of a color lower in brightness than the first reference color member; and reflecting the reflected light of light applied to the first and second reference color members, Calculating means for calculating the difference between these read values from the read values obtained by reading by the image input means; clock means for measuring the time; and an image reading device for reading the object to be read. Brightness is appropriate Storage means for storing a reference value serving as a criterion for judging whether or not, a difference between two read values calculated by the calculation means at fixed time intervals, and a time counted by the time measurement means at the time of the calculation. An image reading apparatus, comprising: a prediction unit that predicts when the life of a light source reaches the end based on a reference value stored in the storage unit, a difference between read values, and time.