JP2008030939A - Image reader - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image reader without causing a time loss even in reading of several documents, by improving inconvenience by detecting the document number loaded on a document tray as weight, by arranging a weight detecting part. <P>SOLUTION: This image reader has a document feeding means for feeding paper one by one by lifting a plurality of documents loaded on the document tray up to a paper feeding position, a document carrying means for carrying the document fed from the document feeding means to a reading position, a reading means for reading an image of the document carried to the reading position by the document carrying means, and a paper ejecting means for ejecting the document read by the reading means to a paper ejecting part, and further has the weight detecting part for detecting weight of the document loaded on the document tray. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an image reading apparatus such as an image scanner that raises a plurality of documents stacked on a document tray to a paper feeding position.

In recent image reading apparatuses, the number of originals loaded on the original tray is increasing day by day due to the storage of paper text by digitization. For example, in an image reading apparatus having a document tray capable of stacking 200 documents, the height from the document tray surface to the paper feed unit is a height that secures the thickness of 200 documents, but it depends on how it is used. In some cases, the number of sheets on the document tray is several.
Depending on the number of documents stacked on such a document tray, the documents raised to the paper feed section vary in terms of time and work efficiency is poor. Therefore, techniques for improving this have been proposed. (For example, see Patent Documents 1 to 3).
In Patent Document 1, the operation mode can be selected from a first operation mode that rises immediately after a document is set on the paper feed table, and a second operation mode that rises after the start button is pressed after document setting is detected. Techniques having various configurations are disclosed. Patent Document 2 discloses a configuration in which the document tray is raised after a time set by a timer.
In Patent Document 3, the best timing for raising a document is considered to be input of conditions relating to document processing (number of copies, density, paper size, etc.). Generally, immediately after completion of document storage. Thus, a configuration is disclosed in which the document storage means is raised by effectively using the time for such input work.
JP 11-237770 A JP 2006-41809 A JP 2004-166052 A

However, in the image reading apparatus, when 200 documents are stacked on the document tray and read, the stacked uppermost document is raised to the paper feed unit in a short time by the document tray lifting mechanism. finish.
However, when several documents are loaded on the document tray that secures the height of 200 documents from the document tray surface to the feeder, the topmost document loaded is raised to the feeder. In order to achieve this, the document tray raising mechanism has the same ascending speed when loading 200 documents, but the ascending distance is long, so that it takes time to ascend to the paper feeding unit.
In an image reading apparatus having high-speed performance, when several originals are read, this rise time results in a time loss, and it may take longer to raise the original tray than the actual reading time. .
For example, in order to enable stacking of 200 originals, the height from the original tray surface to the paper feed unit is about 30 to 40 mm, depending on the type of originals, and this distance is increased. Often use motors rather than electromagnetic clutches or solenoids.
Therefore, an object of the present invention is to provide a weight detection unit in consideration of the above-described situation, thereby improving the above-described problem by detecting the number of documents stacked on the document tray as a weight, An object of the present invention is to provide an image reading apparatus with no time loss even in reading.

In order to solve the above problems, the invention described in claim 1 is directed to a document tray configured to be movable up and down, and a plurality of documents stacked on the document tray are raised to a paper feeding position. Document feeding means for feeding sheets one by one, document feeding means for feeding the document fed by the document feeding means to a reading position, and an image of the document conveyed to the reading position by the document feeding means A weight for detecting the weight of the document stacked on the document tray in an image reading apparatus comprising: a reading unit that reads the document; and a sheet discharge unit that discharges the document read by the reading unit to a sheet discharge unit. A detection unit is provided.
According to a second aspect of the present invention, there is provided the image reading apparatus according to the first aspect, wherein the weight detection unit is installed on the document feeding unit side of the document tray.
According to a third aspect of the present invention, there is provided a control for changing a speed at which the document feeding unit raises the document tray to the feeding position according to a result of the weight detection unit detecting the weight of the document. The image reading apparatus according to claim 1 or 2, further comprising a section.

  According to the present invention, since the weight detection unit is installed in the document tray, the weight of the loaded document can be detected, and the rising speed of the document tray can be changed to a speed suitable for the weight of the loaded document. It becomes.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic configuration diagram showing an embodiment of an image reading apparatus to which the present invention is applied. FIG. 2 is a schematic configuration diagram relating to the document tray. FIG. 3 is a schematic configuration diagram showing a state where the document tray is raised. FIG. 4 is a schematic configuration diagram showing a weight detection unit for detecting the document weight.
Referring to FIG. 1, in the image reading apparatus 1, a contact glass 3 is disposed on an upper surface portion of a main body housing 2, and an illumination lamp as a light source is provided inside the main body housing 2 below the contact glass 3. 4 and the first mirror 5, the second and third mirrors 6 and 7, the lens 8, the CCD drive unit (SBU) 9, the traveling body motor 10 and the system control unit (SCU) 11, IOB (I / O Block) 12 and RCU (back surface control unit) 13 are disposed.
The illumination lamp 4 and the first mirror 5 are mounted on a first traveling body (not shown), and the second mirror 6 and the third mirror 7 are mounted on a second traveling body (not shown), and are driven by a traveling body motor 10. It is moved in the sub-scanning direction (A direction in FIG. 1).

When the image reading apparatus 1 reads a document (not shown) set on the contact glass 3, the contact glass is moved from the illumination lamp 4 while moving the first traveling body and the second traveling body in the sub-scanning direction. The original set on 3 is irradiated with light, the light reflected by the original is reflected by the first mirror 5 toward the second mirror 6, and further reflected by the second mirror 6 toward the third mirror 7. The third mirror 7 reflects the light toward the lens 8.
The image reading device 1 condenses the light incident on the lens 8 on the CCD drive unit 9, photoelectrically converts the incident light with a CCD (charge coupled device) 14 mounted on the CCD drive unit 9, Output image signal.
Further, the image reading apparatus 1 is provided with a white reference plate (not shown) outside the document area, and the white reference plate is read prior to reading the document to obtain shading data including optical system distortion information. Collect and store.
In the image reading apparatus 1, an ADF (automatic double-sided document conveying device) 20 is attached to the upper part of the main body housing 2, and the ADF 20 includes a document tray 21, a pickup roller 22, a registration roller pair 23, a conveying drum 24, and a conveyance A roller 25, a separation roller 26, a conveyance guide plate 27, a contact image sensor 28, a white roller 29, a conveyance roller pair 30, an imprint unit 31, a discharge roller pair 32, a discharge tray 33, and the like are provided.

The document feeding mechanism (document feeding means) of the pickup roller 22, the conveying drum 24, the conveying roller 25 and the separation roller 26 is driven by a sheet feeding motor (not shown), and the white roller 29 and the conveying roller pair 30 are also driven. The document transport mechanism (document transport means) of the paper discharge roller pair 32 is driven by a transport motor (not shown).
A DF document glass 34 is disposed at a position above the main body housing 2 and facing the transport drum 24. The image reading apparatus 1 passes a document between the transport drum 24 and the DF document glass 34 when the ADF 20 is used to transport the document and read the document.
That is, a plurality of documents stacked on the document tray 21 are sent one by one to the conveyance drum 24 by the pickup roller 22, and between the conveyance drum 24 and the DF document glass 35 by the conveyance drum 24 and the conveyance roller 25. After passing through the reading position B, the separation roller 26 feeds the sheet from the conveyance drum 24 to the conveyance guide plate 27.
Thereafter, the paper is sequentially transported between the white roller 29 and the contact image sensor 28 to the transport roller pair 30, the imprint unit 31, and the paper discharge roller pair 32, and is discharged onto the paper discharge tray 33.

The image reading apparatus 1 uses the ADF 20 to read an image on the upper surface (front surface) as the first surface of the single-sided document placed on the document tray 21 in order to perform reading at the reading position B. Then, the first traveling body and the second traveling body are moved to the reading position B, and the image on the surface of the document conveyed between the conveyance drum 24 and the DF document glass 34 is read by the conveyance drum 24. .
In this case, the illumination lamp 4 irradiates light on the surface of the original conveyed between the conveying drum 24 and the DF original glass 34, and the light reflected by the original is directed by the first mirror 5 toward the second mirror 6. Reflect. This light is further reflected by the second mirror 6 in the direction of the third mirror 7, reflected by the third mirror 7 in the direction of the lens 8, and the incident light is condensed by the lens 8 on the CCD drive unit 9, The CCD 14 mounted on the CCD drive unit 9 photoelectrically converts the incident light and outputs an image signal.
Further, when the image reading apparatus 1 reads an image of a double-sided document placed on the document tray 21 using the ADF 20, the image on the surface of the document conveyed by the conveyance drum 24 is used as the single-sided document. Read as in.

The original whose upper surface has been read is guided between the white roller 29 and the contact image sensor 28 while being guided by the transport guide plate 27. When the document passes the reading position C, the contact image sensor 28 sets the original. The image of the lower surface (back surface) as the second surface is read.
Although not shown, the contact image sensor 28 includes an LED, a lens, a sensor element, and the like that are light sources. In the contact image sensor 28, when passing through the reading position C, the opposite surface (back surface) of the document read at the reading position B passes through the reading position C. The contact image sensor 28 irradiates light from the LED onto the back surface of the document passing therethrough, focuses the reflected light with a lens on the contact image sensor 28, irradiates the sensor element of the contact image sensor 28, and performs photoelectric conversion. .
The illumination lamp 4 and the first mirror 5 mounted on the first traveling body, the second mirror 6 and the third mirror 7 and the lens 8 and the CCD 14 mounted on the second traveling body, and the contact image sensor 28, It functions as reading means.
A white roller 29 is installed at a portion of the contact image sensor 28 facing the document, and the white roller 29 is used as a white member for shading correction when the contact image sensor 28 reads the document.

FIG. 2 shows a schematic configuration relating to the document tray. When the document loaded on the document tray 21 is detected by the document detection sensor 35, the arm 36 is raised by rotating a shaft 37 attached to the arm 36 with a motor (not shown).
The document tray 21 is lifted about the fulcrum 39 in the form of being pushed up by the arm 36, and the stacked document comes into contact with the lift detection unit 38, so that the document tray 21 stops rising, and the pickup roller 22, The original is fed into the apparatus by the registration roller pair 23 and thereafter operates as in the schematic configuration described above with reference to FIG. FIG. 3 shows a state where the document tray 21 is raised.
Since the originals are sequentially fed and the number of stacked originals on the original tray 21 is reduced, even when the original tray 21 is raised, the rise detection unit 38 changes from the rising detection state to the non-detection state.
At this time, the document tray 21 is raised without stopping the paper feeding operation and during the operation of the image reading apparatus including the paper feeding until the rise detection unit 38 detects the rise again. By repeating this, the uppermost document on the document tray 21 always holds an appropriate position for paper feeding with respect to the pickup roller 22.
The reading of the original is terminated when the original loaded on the original tray 21 runs out and no original is detected by the original detection sensor 35, and the original tray 21 lowers the original tray 21 by lowering the arm 36. When the home position sensor 40 that detects a fixed position when the document tray 21 is lowered detects the document tray 21, the lowering operation is completed.

FIG. 4 shows a schematic configuration of a weight detection unit that detects the document weight. The weight detector 41 is installed on the document tray 21 and is installed on the lower side of the inclined document tray 21 (the document tray 21 in FIG. The higher one, the lower right side).
Since the document tray 21 is inclined, the weight detection unit 41 is installed on the lower side of the document tray 21, so that the document weight is applied to the lower side (lower right in the figure), so that the weight is reliably detected. it can. That is, since the weight detection unit 41 is installed on the surface of the document tray 21 on the side of the paper feeding unit as the image reading device, that is, on the lower inclined side, the document weight is reliably applied to the lower document weight. The weight can be detected.
The weight detection unit 41 needs to be installed within the minimum size range of the document size that can be handled by the image reading apparatus. The weight detection unit 41 does not detect the number of stacked documents, but determines at least two levels of whether the weight of the stacked documents is heavy or light. For this reason, detection may be performed in three or more stages, which are heavy, light, or intermediate between them. Document weight = pressure on the document tray 21 is detected, and a pressure sensor is used to determine the pressure level. Is detected.
Since the pressure cannot be detected when the detection surface is set to be concave with respect to the surface of the document tray 21, the pressure can be detected by reliably contacting the document by setting the detection surface so as to protrude from the surface of the document tray 21.

As an operation, the document loaded on the document tray 21 is detected as being present by the document detection sensor 35, and the weight detection unit 41 determines whether the loaded document is heavy or light by pressure. .
At this time, if the document weight is heavy, a control unit (not shown) drives a motor that rotates the shaft 37 attached to the arm 36 at a normal speed, and conversely if the document weight is light, the shaft attached to the arm 36 is driven. By driving a motor for rotating 37 at a high speed, the rising speed of the document tray 21 is driven at a speed higher than the normal speed.
The rising speed of the document tray 21 is made variable up to the paper feed position based on the weight of the document in the weight detection unit 41. Therefore, when several documents are stacked on the document tray 21, the rising speed of the document tray 21 is increased. As a result, it is possible to shorten the rising time, eliminate the time loss of the user, and improve the usability without impairing the high speed as a high speed image reading device. Therefore, it is possible to withstand heavy loads and increase the number of loaded sheets.

1 is a schematic configuration diagram showing an embodiment of an image reading apparatus to which the present invention is applied. FIG. 2 is a schematic configuration diagram regarding a document tray. FIG. 3 is a schematic configuration diagram illustrating a state where a document tray is raised. FIG. 3 is a schematic configuration diagram illustrating a weight detection unit that detects a document weight.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Image reader 5 1st mirror 6 2nd mirror 7 3rd mirror 8 Lens 9 CCD drive unit 14 CCD
20 ADF (automatic double-sided document feeder)
21 Document Tray 22 Pickup Roller 24 Conveying Drum 25 Conveying Roller 26 Separation Roller 28 Contact Image Sensor 29 White Roller 30 Conveying Roller Pair 32 Discharge Roller Pair 33 Discharge Tray 34 DF Document Glass 41 Weight Detection Unit B Reading Position C Reading Position

Claims (3)

  A document tray configured to be movable up and down, a document feeding unit that raises a plurality of documents stacked on the document tray to a feeding position, and feeds them one by one, and the document feeding unit feeds the document tray Document conveying means for conveying the document to be read to a reading position, reading means for reading an image of the document conveyed to the reading position by the document conveying means, and a document discharge unit for reading the document read by the reading means An image reading apparatus, comprising: a weight detection unit configured to detect a weight of the document stacked on the document tray.   The image reading apparatus according to claim 1, wherein the weight detection unit is installed on the document feeding unit side of the document tray. The control unit for changing a speed at which the document feeding unit raises the document tray to the feeding position according to a result of the weight detection unit detecting the weight of the document. The image reading apparatus according to 1 or 2.

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