JP3270259B2 - Document double feed detection device - Google Patents
Document double feed detection deviceInfo
- Publication number
- JP3270259B2 JP3270259B2 JP26314794A JP26314794A JP3270259B2 JP 3270259 B2 JP3270259 B2 JP 3270259B2 JP 26314794 A JP26314794 A JP 26314794A JP 26314794 A JP26314794 A JP 26314794A JP 3270259 B2 JP3270259 B2 JP 3270259B2
- Authority
- JP
- Japan
- Prior art keywords
- document
- detecting means
- paper
- paper thickness
- light
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G2215/00—Apparatus for electrophotographic processes
- G03G2215/00172—Apparatus for electrophotographic processes relative to the original handling
- G03G2215/00341—Jam handling in document feeder
- G03G2215/0035—Document related problems, e.g. double-fed sheets
Landscapes
- Paper Feeding For Electrophotography (AREA)
- Controlling Sheets Or Webs (AREA)
- Facsimiles In General (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は複写機、プリンタ、ファ
クシミリ装置等の画像形成装置や、スキャナ等に用いら
れる画像読取り装置において、原稿の紙種、サイズ、挙
動、その他の搬送条件に関係なく、原稿の重送を確実に
検知することを可能とした原稿重送検知装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus such as a copying machine, a printer and a facsimile machine, and an image reading apparatus used for a scanner and the like, irrespective of the paper type, size, behavior and other transport conditions of a document. The present invention relates to a document double feed detection device capable of reliably detecting double feed of a document.
【0002】[0002]
【従来の技術】複写機、プリンタ、ファクシミリ装置等
の画像形成装置やスキャナに用いられる画像読取り装置
においては、コンタクトガラスやスリットガラス等の読
取り位置に原稿を自動給紙する為の自動原稿給紙装置が
用いられる。自動原稿給紙装置は原稿台上に積層状態で
セットされた原稿束中から一枚づつ原稿を取り出して上
記読取り位置に給紙するものであり、その給紙口近傍に
は取り出された原稿が重送状態にある場合に、これを分
離して一枚だけを読取り位置に搬送するための分離機構
が装備されている。しかし、如何に分離機構の性能を高
めたとしても、上記重送を100%なくすることは事実
上不可能である。画像読取り装置に於て、重送が発生す
ると、複数枚の原稿中のある頁が欠落し、該頁の読取り
が行われないという事態が発生する。この欠落した頁を
読み取らせる為には、原稿排紙トレイ上にスタックされ
た読取り済み原稿中から当該欠落した頁を捜し出す必要
があるが、欠落した頁を捜す為には、得られたコピー紙
と見比べながら行う必要がある。そして、原稿枚数が多
ければ多いほどその作業量は膨大なものとなり、作業時
間も長期化するという不具合があった。2. Description of the Related Art In an image reading apparatus used for an image forming apparatus such as a copying machine, a printer, a facsimile apparatus and a scanner, an automatic document feeder for automatically feeding a document to a reading position such as a contact glass or a slit glass. A device is used. The automatic document feeder takes out documents one by one from a bundle of documents set in a stacked state on a platen and feeds them to the above-mentioned reading position. A separation mechanism is provided for separating the multi-feed state and conveying only one sheet to the reading position. However, no matter how the performance of the separation mechanism is improved, it is practically impossible to eliminate the double feed by 100%. In the image reading apparatus, when double feeding occurs, a page in a plurality of originals is lost, and a situation occurs in which the page is not read. In order to read the missing page, it is necessary to search for the missing page from among the read documents stacked on the document output tray, but to search for the missing page, the obtained copy paper It is necessary to perform while comparing. The larger the number of documents, the greater the amount of work and the longer the work time.
【0003】ところで、特開平5−43091号公報に
は、原稿給紙台と原稿読取り部との間の搬送経路上に、
微小角度センサ或は透過型フォトセンサから成る紙厚検
知手段と、紙サイズ検知装置とを配置し、2種類のセン
サから得られる紙厚とサイズに関する情報に基づいて重
送の有無を判定する技術が開示されている。しかし、上
記微小角度センサは、μm単位の微小な紙厚の変動を検
知する場合にはその精度に限界があり、高い精度を得よ
うとすれば、コストがアップしたり、故障が増大する虞
れがある。また、透過型のフォトセンサは、原稿を通過
する検知光の透過光量に基づいて重送の有無を検知する
ものであるが、紙厚が同一であっても、メーカーの違い
により紙の密度にバラツキが存するので、透過光量だけ
を手掛かりに重送の有無を判定する手法は信頼性が低
い。また、原稿上の画像の有無、濃淡により透過光量は
異なる為、透過光量だけから重送の有無を判定すること
には無理がある。更に、この従来技術では、原稿のサイ
ズが違う場合には、紙厚も異なることが多いという条件
を前提として成り立っているが、実際に用いられる原稿
にはサイズが同じであっても繊維の紙厚が異なる場合
や、サイズが異なっても紙厚が同じ場合が多々あり、従
って、この検知手段の信頼性は極めて低いものと言わざ
るを得ない。[0003] Japanese Patent Application Laid-Open No. Hei 5-43091 discloses that a transport path between a document feeding table and a document reading section is provided on a transport path.
A technique of arranging a paper thickness detecting means composed of a minute angle sensor or a transmission type photo sensor and a paper size detecting device, and judging the presence or absence of a double feed based on information on paper thickness and size obtained from two types of sensors. Is disclosed. However, the above-mentioned minute angle sensor has a limit in its accuracy when detecting a minute change in paper thickness in μm units, and if high accuracy is to be obtained, the cost may increase or failures may increase. There is. In addition, the transmission type photo sensor detects the presence or absence of double feeding based on the transmitted light amount of the detection light passing through the original.However, even if the paper thickness is the same, the density of the paper may vary depending on the manufacturer. Since there is variation, the method of determining the presence or absence of double feed based on only the amount of transmitted light is low in reliability. Further, since the amount of transmitted light varies depending on the presence or absence of an image on a document and the density, it is impossible to determine the presence / absence of double feeding only from the amount of transmitted light. Further, in this prior art, when the size of the document is different, the condition is satisfied on the assumption that the paper thickness is often different. There are many cases where the thickness is different or the paper thickness is the same even if the size is different, so that the reliability of this detection means has to be said to be extremely low.
【0004】また、画像読取り装置の実際の利用態様と
しては、異なったサイズ、異なった紙種の原稿を用いる
場合よりも、伝票等のように紙種が同一でサイズも同一
の原稿を大量に自動給紙して読取ることが多い為、上記
従来例はその前提となる条件に誤りがあり、その実用性
には極めて疑わしいものがある。また、特開昭60−1
44256号公報に開示された重送検知方法は、給紙ロ
ーラ対のニップ部を通過する原稿の紙厚に応じて給紙ロ
ーラが位置変位を起こすことを利用して、この変位量を
検知することにより重送を検知せんとするものである
が、この検知方法も精度の点で問題がある。即ち、この
検知方法は給紙ローラの回転軸の上下変位に連動して上
下動するレバーの端部の動きを可変抵抗により抵抗値の
変化として検出するか、或はフォトインタラプタにより
検出するようにしているが、μm単位の紙厚の変化を正
確に検出することは困難であり、また給紙ローラ周辺の
機構が複雑化し、要求される組付け精度も高くなるの
で、問題である。また、多部品を用いる為、部品間の公
差、ガタや、ローラの偏心、原稿の挙動等で紙厚の変位
量がバラツキを起こし、誤検知を起こすことが多かっ
た。また、上記従来方法では、原稿の搬送経路がほぼ直
線でないかぎり、原稿の挙動を管理できず、誤検知を行
う虞れがあった。ここで原稿の挙動とは、反転経路等、
搬送条件が変動した場合に発生し易い原稿の浮き沈み、
跳ね、屈曲、湾曲(カール)、皺寄り等々の上下方向や
横方向への変動である。In actual use of an image reading apparatus, a large number of originals of the same paper type and the same size, such as slips, are used as compared with a case where originals of different sizes and different paper types are used. Since the automatic feeding is often performed for reading, the above-described conventional example has an error in the precondition thereof, and its practicality is extremely doubtful. Also, Japanese Patent Application Laid-Open No. Sho 60-1
The double feed detecting method disclosed in Japanese Patent No. 44256 detects the amount of displacement by utilizing the fact that the paper feed roller is displaced in accordance with the thickness of the document passing through the nip portion of the paper feed roller pair. Thus, the double feed is not detected, but this detection method also has a problem in accuracy. That is, in this detection method, the movement of the end of the lever that moves up and down in conjunction with the vertical displacement of the rotation axis of the paper feed roller is detected as a change in resistance value using a variable resistor, or is detected using a photo interrupter. However, it is difficult to accurately detect a change in the sheet thickness in the unit of μm, and the mechanism around the sheet feeding roller is complicated, and the required assembling accuracy is high, which is a problem. In addition, since multiple parts are used, the amount of displacement of the paper thickness often fluctuates due to tolerance between parts, play, eccentricity of rollers, behavior of a document, and the like, and erroneous detection often occurs. In addition, in the above-described conventional method, unless the conveyance path of the document is substantially straight, the behavior of the document cannot be controlled, and there is a possibility that erroneous detection may be performed. Here, the behavior of the document includes
Ups and downs of the document, which are likely to occur when the transport conditions fluctuate,
Changes in the vertical and horizontal directions, such as bouncing, bending, bending (curling), and wrinkling.
【0005】[0005]
【発明の目的】本発明は上記に鑑みてなされたものであ
り、部品点数の増大、構造の複雑化、コストアップ、組
付け精度の高度化を招くことなく、高い精度で原稿の紙
厚の違いを検出して重送発生を検知することができる原
稿重送検知装置を提供することを目的としている。ま
た、本発明は紙厚がほぼ同一であるかぎり、繊維の密度
による透光性の違いがあっても比較的正確に重送を検知
できる原稿重送検知装置を提供する。SUMMARY OF THE INVENTION The present invention has been made in view of the above, and has a high accuracy in the thickness of a document without increasing the number of parts, complicating the structure, increasing the cost, and increasing the mounting accuracy. An object of the present invention is to provide a document double feed detection device capable of detecting a difference and detecting occurrence of double feed. Further, the present invention provides a document double feed detecting device capable of detecting double feed relatively accurately even if there is a difference in light transmittance due to fiber density as long as the paper thickness is substantially the same.
【0006】[0006]
【発明の構成】上記目的を達成するため、本発明は、原
稿台と、該原稿台から原稿を取り出す給紙機構と、該給
紙機構により搬送された原稿の画像を読取る読取り部
と、制御部と、を備えた原稿搬送装置において、上記原
稿台から上記読取り部に至る搬送経路に原稿先端検知手
段と原稿紙厚検知手段を順次配置し、上記制御部は、上
記原稿先端検知手段からの原稿先端の通過タイミングに
関する情報と、上記原稿紙厚検知手段からの原稿紙厚に
関する情報とに基づいて原稿の重送の有無を判定し、上
記原稿紙厚検知手段の配置箇所を、上記搬送経路上に幅
方向に沿って配置された複数のアイドラローラの間に設
定したことを特徴とする。また、上記各アイドラローラ
の軸線を搬送方向と平行な線に対して角度θ(0°<θ
<90°)傾斜させたことを特徴とする。SUMMARY OF THE INVENTION To achieve the above object, the present invention provides a document table, a paper feed mechanism for taking out a document from the document table, a reading section for reading an image of the document conveyed by the paper feed mechanism, And a document feeder comprising: a document leading edge detecting means and a document sheet thickness detecting means sequentially arranged on a transport path from the document table to the reading section; The presence / absence of double feeding of the document is determined based on the information on the passage timing of the leading edge of the document and the information on the document sheet thickness from the document sheet thickness detecting means. It is characterized in that it is set between a plurality of idler rollers arranged above along the width direction. Also, the axis of each idler roller is at an angle θ (0 ° <θ) with respect to a line parallel to the conveyance direction.
<90 °).
【0007】以下、添付図面に示した実施例により本発
明を詳細に説明する。本発明では、原稿の搬送経路に必
ず配置される搬送ローラの存在に着目し、搬送方向と交
差する方向に配置された複数のアイドラローラ間に原稿
紙厚検知手段を配置することにより、原稿を確実に搬送
経路上に押え込んだ状態で、紙厚を測定することによ
り、原稿搬送時の挙動に影響されずに正確に紙厚を測定
することを可能とした点が特徴的である。Hereinafter, the present invention will be described in detail with reference to embodiments shown in the accompanying drawings. In the present invention, by focusing on the presence of a transport roller that is always disposed in the transport path of the document, the document sheet thickness detecting means is disposed between a plurality of idler rollers disposed in a direction intersecting the transport direction, so that the document is transferred. The characteristic feature is that the paper thickness can be accurately measured without being affected by the behavior of the document being conveyed by measuring the paper thickness in a state where the paper is securely pressed onto the conveyance path.
【0008】図1は本発明の原稿重送検知装置を適用し
た画像読取り装置の要部構成説明図であり、複数の原稿
Dを積層状態でセットする原稿台1と、該原稿台から原
稿Dを取り出す給紙機構2と、該給紙機構2により搬送
された原稿の画像を読取る読取り部3と、搬送ローラ4
(4a,4b)と、排紙ローラ5と、搬送経路に沿って
順次配置された原稿先端検知手段10と、原稿紙厚検知
手段11と、図示しない制御部とを有する。給紙機構2
は、原稿台上の原稿に接して原稿を取り出すピックアッ
プコロ15と、取り出された原稿を分離する分離コロ対
16とから成る。本発明の特徴的な構成は、後述する様
に上記原稿紙厚検知手段11を、搬送経路に配置された
搬送ローラ4の内の一つ、例えばアイドラローラ4aを
構成する2つのローラの間に配置した点に存する。FIG. 1 is an explanatory view of a main part of an image reading apparatus to which a multi-document detection device of the present invention is applied. A document table 1 on which a plurality of documents D are set in a stacked state, and a document D from the document table. Paper feed mechanism 2 for taking out an image, a reading unit 3 for reading an image of a document conveyed by the paper feed mechanism 2, and a conveyance roller 4
(4a, 4b), a paper discharge roller 5, a document leading edge detecting means 10, a document paper thickness detecting means 11, which are sequentially arranged along the transport path, and a control unit (not shown). Paper feed mechanism 2
Is composed of a pickup roller 15 for taking out the original in contact with the original on the original table, and a separation roller pair 16 for separating the extracted original. The characteristic configuration of the present invention is that, as described later, the document paper thickness detecting means 11 is provided between one of the transport rollers 4 arranged in the transport path, for example, two rollers constituting an idler roller 4a. It exists at the point where it is placed.
【0009】原稿先端検知手段10は、反射型フォトセ
ンサであり、発光素子から搬送経路に向けて出射される
検知光が受光素子に受光される際の光量の変動から原稿
の端縁の通過を検知するものであり、原稿先端縁の情報
を制御部に出力する。制御部は、原稿先端検知手段10
により検知された原稿の先端についてのデータと、後述
する原稿の紙厚についてのデータに基づいて重送発生の
有無を判定する。The document leading edge detecting means 10 is a reflection type photo sensor, and detects the passage of the edge of the document due to the change in the amount of light when the detection light emitted from the light emitting element toward the transport path is received by the light receiving element. And outputs information of the leading edge of the document to the control unit. The control unit includes a document leading edge detection unit 10
The presence or absence of occurrence of double feed is determined based on the data on the leading edge of the document detected by the above and the data on the sheet thickness of the document described later.
【0010】また、図2に示す様に原稿紙厚検知手段1
1は遮光性を有した中空の箱体20の内部に発光素子
(LED)21と、位置検出素子(受光素子、例えばオ
ムロン社製の位置検出素子)22を備え、発光素子21
は、原稿ガイド板23と対向する箱体面に貫通形成した
出射孔20aから検知光を出射し、ガイド板23或はそ
の上を通過する原稿Dの上面で反射した検知光は適所に
設けた入射孔20bから箱体内に入射する。入射孔20
bから入射する検知光は位置検出素子22に受光され、
その受光位置の違いが発光素子21からの出射光(検知
光)の反射位置(ガイド板23上か、原稿D1上か、或
は原稿D2上か)の違いとして検出される。Also, as shown in FIG.
1 includes a light-emitting element (LED) 21 and a position detection element (light-receiving element, for example, a position detection element manufactured by OMRON Corporation) 22 inside a hollow box 20 having a light-shielding property.
The detection light is emitted from an emission hole 20a formed through the surface of the box body facing the document guide plate 23, and the detection light reflected on the guide plate 23 or the upper surface of the document D passing therethrough is provided in an appropriate position. The light enters the box through the entrance hole 20b. Entrance hole 20
The detection light incident from b is received by the position detection element 22,
The difference in the light receiving position is detected as a difference in the reflection position of the light (detection light) emitted from the light emitting element 21 (on the guide plate 23, on the document D1, or on the document D2).
【0011】上記制御部は、上記原稿先端検知手段10
からの原稿先端の位置(通過タイミング)に関する情報
と、上記原稿紙厚検知手段11からの原稿紙厚に関する
情報とに基づいて、重送の有無を判定する。即ち、原稿
先端検知手段10からの検知信号により原稿の先端縁が
該検知手段10を通過したタイミングと、原稿搬送用の
駆動ローラ(例えばローラ16、4b)を駆動するパル
スモータ等による搬送速度に基づいて原稿D1の先端縁
が原稿紙厚検知手段11に達するタイミングを予め認知
しておき、そのタイミングで検知された原稿D1の肉厚
を測定してメモリに保持しておく。続いて当該原稿の先
端縁よりも後方位置の肉厚を数か所測定することにより
得たデータを、上記原稿D1の肉厚と比較し、後者のデ
ータの値が原稿D1の肉厚よりも大きい場合に重送発生
を判定するものである。[0011] The control section includes the document leading edge detecting means 10.
The presence / absence of double feed is determined based on the information on the position of the leading edge of the original (passing timing) from the printer and the information on the original paper thickness from the original paper thickness detecting means 11. That is, the timing at which the leading edge of the document has passed through the detecting means 10 based on the detection signal from the document leading edge detecting means 10 and the transport speed of a pulse motor or the like for driving the original transport driving rollers (for example, rollers 16 and 4b). The timing at which the leading edge of the document D1 reaches the document sheet thickness detecting means 11 is recognized in advance, and the thickness of the document D1 detected at that timing is measured and stored in a memory. Subsequently, the data obtained by measuring the thickness of the original at several positions behind the leading edge is compared with the thickness of the original D1, and the value of the latter data is larger than the thickness of the original D1. When it is larger, the occurrence of double feed is determined.
【0012】原稿紙厚検知手段11による紙厚検知手法
を説明すると、ガイド板23上に原稿が存在しない場合
には発光素子21からの出射光は、ガイド板23上で反
射した時にはS1の経路を経て入射孔20bから位置検
出素子22の検出面に受光される。この受光位置につい
ての情報は上記制御部に送出される。また、重送原稿の
一枚目D1の上面で発光素子からの出射光が反射した場
合には、該反射光はS2の経路を経て位置検出素子22
の検出面に受光され、制御部にこのデータが送出され
る。重送原稿の2枚目D2の上面で反射した出射光はS
3の経路を経て位置検出素子22に受光される。The paper thickness detecting method by the original paper thickness detecting means 11 will be described. When there is no original on the guide plate 23, the light emitted from the light emitting element 21 is reflected on the guide plate 23 when the light is reflected on the guide plate 23. Is received from the entrance hole 20b to the detection surface of the position detection element 22. Information on the light receiving position is sent to the control unit. When the light emitted from the light emitting element is reflected on the upper surface of the first sheet D1 of the multi-feed document, the reflected light is transmitted through the path of S2 to the position detecting element 22.
Is received by the detection surface of the control unit, and this data is sent to the control unit. The outgoing light reflected on the upper surface of the second sheet D2 of the multi-fed original is S
The light is received by the position detecting element 22 via the path 3.
【0013】ここでは、ガイド板23の上面(基準面)
に発光素子からの光を照射することによって得た反射光
の入射位置(位置検出素子22の受光面への入射位置)
についてのデータに次いで、一枚目の原稿D1の先端縁
の移動タイミングに基づいて該原稿D1の上面に検知光
を照射することにより得た反射光の入射位置についての
データを制御部に入力することにより、原稿D1の紙厚
t1(基準面から原稿D1の上面までの距離)を検知
し、メモリに記憶する。この時、検知光が照射される原
稿D1の上面部分の幅方向両側は、搬送ローラ4aによ
りその挙動を押えられているので、正確な検知が行われ
ることとなる。次いで、最初の検知に次いで行われる後
の検知において、原稿の更に後方位置に検知光を照射
し、そこからの反射光が位置検出素子22に入射する位
置に関するデータを得、このデータに基づいて基準面か
ら原稿D2の上面までの距離(全紙厚)t2を測定す
る。制御部は、紙厚t1,t2に関するデータと、最も
薄い原稿の紙厚t3(予めメモリに格納されている)に
基づいて、これらが少なくとも一定時間の間、(t1+
t3)≦(t2)の関係を満足したときに、搬送中の原
稿が重送を起こしていることを判定する。Here, the upper surface (reference surface) of the guide plate 23
Position of reflected light obtained by irradiating light from the light emitting element to the surface (position of incidence on the light receiving surface of the position detecting element 22)
Then, the data about the incident position of the reflected light obtained by irradiating the detection light on the upper surface of the first document D1 based on the movement timing of the leading edge of the first document D1 is input to the control unit. Thereby, the paper thickness t1 (distance from the reference plane to the upper surface of the document D1) of the document D1 is detected and stored in the memory. At this time, since the behavior on both sides in the width direction of the upper surface portion of the document D1 irradiated with the detection light is suppressed by the transport roller 4a, accurate detection is performed. Next, in the subsequent detection performed after the first detection, the detection light is applied to a further rear position of the document, and data on the position where the reflected light from the detection light is incident on the position detection element 22 is obtained. The distance (total paper thickness) t2 from the reference surface to the upper surface of the document D2 is measured. Based on the data relating to the paper thicknesses t1 and t2 and the paper thickness t3 of the thinnest document (previously stored in the memory), the control unit determines that these are at least (t1 +
When the relationship of (t3) ≦ (t2) is satisfied, it is determined that the document being conveyed causes double feeding.
【0014】次に、図3(a) 及び(b) は上記原稿紙厚検
知手段11の配置例を示す平面図及び正面図であり、原
稿搬送方向と交差する方向(幅方向)に同軸状に配置さ
れた2つの搬送ローラ(アイドラローラ)4a,4aの
間に原稿紙厚検知手段11を配置することにより、検知
光が照射される原稿面の幅方向両側をローラによって押
えて被検知部分を平坦化した状態で測定を行うので、原
稿の挙動を押えた状態で正確な紙厚検知を行うことが可
能となる。なお、符号23aは、上側のガイド板であ
る。FIGS. 3 (a) and 3 (b) are a plan view and a front view showing an example of the arrangement of the original sheet thickness detecting means 11, which are coaxial in a direction (width direction) intersecting with the original conveying direction. The document thickness detecting means 11 is arranged between the two transport rollers (idler rollers) 4a, 4a arranged in the direction of the arrow. Since the measurement is performed in a state where is flattened, it is possible to accurately detect the paper thickness in a state where the behavior of the document is suppressed. Reference numeral 23a is an upper guide plate.
【0015】次に、図4は上記搬送ローラ4a,4aの
軸線を夫々搬送方向と平行な線Lに対して所定角度θ
(0°<θ<90°)だけ傾斜させるとともに、両ロー
ラ4a,4aの間に上記原稿紙厚検知手段11を配置し
た構成が特徴的である。この実施例によれば、図3の場
合よりも、ローラによる原稿のたわみを押える能力が格
段に高まる為、搬送中の原稿に対する無理な抵抗となる
ことなく、様々な紙種、及びサイズの原稿を確実に押え
ることが可能となり、誤検知の発生率を低減できる。Next, FIG. 4 shows that the axes of the transport rollers 4a, 4a are each at a predetermined angle θ with respect to a line L parallel to the transport direction.
(0.degree. <. Theta. <90.degree.), And the original paper thickness detecting means 11 is arranged between the rollers 4a, 4a. According to this embodiment, since the ability of the roller to suppress the deflection of the document is significantly improved as compared with the case of FIG. 3, the document of various paper types and sizes can be used without unreasonable resistance to the document being transported. Can be reliably suppressed, and the occurrence rate of erroneous detection can be reduced.
【0016】次に、図5は図2に示したタイプの紙厚検
知手段を用いて原稿の紙厚を検知するための構成例を示
す図であり、この例では、搬送ローラ30を支持するブ
ラケット31の上下変位を紙厚の変化として検知する様
にしているが、この方法は、検出が間接的であり、他の
部品の精度バラツキ、ガタ等により検出誤差が発生しや
すく、実用性が低い。これに対し、本発明の各実施例で
は、そのような不具合がなく、高い精度の検出を行うこ
とができる。FIG. 5 is a diagram showing an example of a configuration for detecting the thickness of a document by using a paper thickness detecting means of the type shown in FIG. 2. In this example, a transport roller 30 is supported. Although the vertical displacement of the bracket 31 is detected as a change in the paper thickness, this method is indirect, and the detection error is likely to occur due to variations in precision of other parts, play, etc. Low. On the other hand, in each embodiment of the present invention, there is no such a problem, and high-precision detection can be performed.
【0017】[0017]
【発明の効果】以上のように本発明によれば、部品点数
の増大、構造の複雑化、コストアップ、組付け精度の高
度化を招くことなく、高い精度で原稿の紙厚の違いを検
出して重送発生を検知することができる。また、反射型
のセンサにより直接的に紙厚を測定するので、他の部品
が介在することによる測定精度の低下を防止できる。ま
た、透過型の検知手段を用いないので、紙厚がほぼ同一
であるかぎり、繊維の密度による透光性の違いがあって
も比較的正確に重送を検知できる。また、部品点数が少
ないので、部品の公差や、ガタ等による影響を受けずに
誤検知を防止できる。As described above, according to the present invention, the difference in the thickness of the original can be detected with high accuracy without increasing the number of parts, complicating the structure, increasing the cost, and increasing the mounting accuracy. Thus, the occurrence of double feed can be detected. Further, since the paper thickness is directly measured by the reflection type sensor, it is possible to prevent a decrease in measurement accuracy due to the presence of other components. Further, since the transmission type detection means is not used, double feed can be detected relatively accurately even if there is a difference in light transmittance due to the fiber density, as long as the paper thickness is substantially the same. In addition, since the number of components is small, erroneous detection can be prevented without being affected by tolerance of components, play, or the like.
【図1】本発明の一実施例の概略構成説明図。FIG. 1 is a schematic configuration explanatory view of one embodiment of the present invention.
【図2】本発明の原稿紙厚検知手段の一例の構成説明
図。FIG. 2 is a configuration explanatory view of an example of a document sheet thickness detecting means of the present invention.
【図3】(a) 及び(b) は本発明の原稿紙厚検知手段の配
置例を示す平面図及び正面図。3 (a) and 3 (b) are a plan view and a front view showing an example of the arrangement of a document sheet thickness detecting means of the present invention.
【図4】他の配置例を示す平面図。FIG. 4 is a plan view showing another arrangement example.
【図5】従来例の欠点を示す図。FIG. 5 is a diagram showing a defect of a conventional example.
1 原稿台、2 給紙機構、3 読取り部、4、4a,
4b 搬送ローラ、5排紙ローラ、10 原稿先端検知
手段、11 原稿紙厚検知手段、15 ピックアップコ
ロ、16 分離コロ対、20 箱体、21 発光素子
(LED)、22位置検出素子。1 platen, 2 paper feed mechanism, 3 reading section, 4, 4a,
4b Conveyance roller, 5 paper discharge roller, 10 document leading edge detecting means, 11 document paper thickness detecting means, 15 pickup roller, 16 separation roller pair, 20 box body, 21 light emitting element (LED), 22 position detecting element.
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) B65H 7/12 B65H 7/14 G03G 15/00 H04N 1/00 ──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. 7 , DB name) B65H 7/12 B65H 7/14 G03G 15/00 H04N 1/00
Claims (1)
給紙機構と、該給紙機構により搬送された原稿の画像を
読取る読取り部と、制御部と、を備えた原稿搬送装置に
おいて、 上記原稿台から上記読取り部に至る搬送経路に原稿先端
検知手段と原稿紙厚検知手段を順次配置し、 上記制御部は、上記原稿先端検知手段からの原稿先端の
通過タイミングに関する情報と、上記原稿紙厚検知手段
からの原稿紙厚に関する情報とに基づいて原稿の重送の
有無を判定し、 上記原稿紙厚検知手段の配置箇所を、上記搬送経路上に
幅方向に沿って配置された複数のアイドラローラの間に
設定し、 上記各アイドラローラの軸線を搬送方向と平行な線に対
して角度θ(0°<θ<90°)傾斜させたことを特徴
とする原稿重送検知装置。A document feeder that includes a document table, a paper feed mechanism for taking out the document from the document table, a reading unit that reads an image of the document conveyed by the paper feed mechanism, and a control unit; A document leading edge detecting means and a document paper thickness detecting means are sequentially arranged on a transport path from the document table to the reading section, and the control section includes information relating to a timing of passage of the document leading edge from the document leading edge detecting means and the document. The presence / absence of double feeding of the original is determined based on the information on the original paper thickness from the paper thickness detecting means, and the plurality of locations where the original paper thickness detecting means are arranged along the width direction on the transport path are determined. Wherein the axis of each of the idler rollers is inclined at an angle θ (0 ° <θ <90 °) with respect to a line parallel to the conveyance direction.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP26314794A JP3270259B2 (en) | 1994-10-03 | 1994-10-03 | Document double feed detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP26314794A JP3270259B2 (en) | 1994-10-03 | 1994-10-03 | Document double feed detection device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH08104448A JPH08104448A (en) | 1996-04-23 |
JP3270259B2 true JP3270259B2 (en) | 2002-04-02 |
Family
ID=17385464
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP26314794A Expired - Fee Related JP3270259B2 (en) | 1994-10-03 | 1994-10-03 | Document double feed detection device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3270259B2 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3472137B2 (en) * | 1998-04-28 | 2003-12-02 | キヤノン株式会社 | Fixing device and image forming device |
JP7080518B2 (en) * | 2021-02-03 | 2022-06-06 | 株式会社プレッシオ | Paper leaf double feed detection device |
-
1994
- 1994-10-03 JP JP26314794A patent/JP3270259B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH08104448A (en) | 1996-04-23 |
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