JP2021009736A - Paper sheet processing apparatus - Google Patents

Paper sheet processing apparatus Download PDF

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JP2021009736A
JP2021009736A JP2020179762A JP2020179762A JP2021009736A JP 2021009736 A JP2021009736 A JP 2021009736A JP 2020179762 A JP2020179762 A JP 2020179762A JP 2020179762 A JP2020179762 A JP 2020179762A JP 2021009736 A JP2021009736 A JP 2021009736A
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paper
unit
port
machine
reject
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JP7209369B2 (en
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高橋 仁
Hitoshi Takahashi
仁 高橋
直矢 上ノ町
Naoya UENOMACHI
直矢 上ノ町
正志 大場
Masashi Oba
正志 大場
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Laurel Precision Machines Co Ltd
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Laurel Precision Machines Co Ltd
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Abstract

To provide a paper sheet processing apparatus capable of improving the efficiency of paper sheet processing.SOLUTION: A paper sheet processing apparatus includes: a receiving port 11 which is opened outside the apparatus and sets paper sheets S from outside the apparatus for feeding out the set paper sheets S in an accumulated state one by one; a conveying unit 30 which conveys the paper sheets S fed out from the receiving port 11; an identification unit 22 which identifies and counting the paper sheets S being conveyed by the conveying unit 30; a post-counting housing port 14 which is opened outside the apparatus and houses the paper sheets S counted as discriminated as the paper sheets to be counted by the identification unit 22; and a plurality of reject housing ports 12 and 13 which classify and house the paper sheets identified as rejected paper sheets for each reject factor by the identification unit 22.SELECTED DRAWING: Figure 1

Description

本発明は、紙葉類処理装置に関する。 The present invention relates to a paper leaf processing apparatus.

従来から、紙葉類を処理する紙葉類処理装置が提案されている(例えば、特許文献1参照)。紙葉類処理装置は、受入口に集積状態で投入された紙葉類を機内に一枚ずつ取り込み、受入口から繰り出された紙葉類を搬送する搬送路上に設けられた識別部で識別し、識別部で識別された種別に応じて紙葉類を搬送路で振り分け、複数の収容部に外部に取り出し可能に収容する。 Conventionally, a paper leaf processing apparatus for processing paper leaves has been proposed (see, for example, Patent Document 1). The paper leaf processing device takes in the paper leaves accumulated in the receiving port one by one and identifies them by the identification unit provided on the transport path for transporting the paper leaves delivered from the receiving port. , Paper sheets are sorted by a transport path according to the type identified by the identification unit, and are stored in a plurality of storage units so that they can be taken out to the outside.

特開2015−41134号公報JP 2015-41134

本発明は、ベース機に対して連設可能な処理機を備える紙葉類処理装置を提供することを目的とする。 An object of the present invention is to provide a paper leaf processing apparatus provided with a processing machine that can be continuously installed with respect to a base machine.

本発明に係る態様は、紙葉類を受け入れる受入部と、前記受入部により受け入れられた紙葉類を識別する識別部と、前記識別部で受け入れ不可と識別された紙葉類を収容するリジェクト部とを有するベース機と、前記ベース機に対して一方向に連設可能な処理機とを備え、前記ベース機は、前記識別部で受け入れ可能と識別された全ての紙葉類を前記処理機へ搬送することを特徴とする。 Aspects according to the present invention are a receiving unit that accepts paper sheets, an identification unit that identifies the paper sheets accepted by the receiving unit, and a reject that houses the paper sheets that are identified as unacceptable by the identification unit. A base machine having a unit and a processing machine that can be continuously connected to the base machine in one direction are provided, and the base machine processes all paper sheets identified as acceptable by the identification unit. It is characterized by being transported to a machine.

本発明によれば、ベース機に対して連設可能な処理機を備える紙葉類処理装置を提供することができる。 According to the present invention, it is possible to provide a paper leaf processing apparatus provided with a processing machine that can be continuously installed with respect to the base machine.

本発明に係る第1実施形態の紙葉類処理装置を正面側から見た概略構成図である。It is a schematic block diagram which looked at the paper leaf processing apparatus of 1st Embodiment which concerns on this invention from the front side. 本発明に係る第1実施形態の紙葉類処理装置の受入口を引き出し、搬送部を開放した状態を示す正面側から見た概略構成図である。It is a schematic block diagram seen from the front side which shows the state which pulled out the receiving port of the paper leaf processing apparatus of 1st Embodiment which concerns on this invention, and opened the transport part. 本発明に係る第1実施形態の紙葉類処理装置の受入口を引き出し、搬送部を開放した状態の変形例を示す正面側から見た概略構成図である。It is a schematic block diagram seen from the front side which shows the modification of the state which pulled out the receiving port of the paper leaf processing apparatus of 1st Embodiment which concerns on this invention, and opened the transport part. 本発明に係る第1実施形態の紙葉類処理装置の受入口を引き出し、搬送部を開放した状態の別の変形例を示す正面側から見た概略構成図である。It is a schematic block diagram seen from the front side which shows another modification of the state which pulled out the receiving port of the paper leaf processing apparatus of 1st Embodiment which concerns on this invention, and opened the transport part. 本発明に係る第1実施形態の紙葉類処理装置の第1動作モードの分類処理のフローチャートである。It is a flowchart of the classification process of the 1st operation mode of the paper leaf processing apparatus of 1st Embodiment which concerns on this invention. 本発明に係る第1実施形態の紙葉類処理装置の第2動作モードの分類処理のフローチャートである。It is a flowchart of the classification process of the 2nd operation mode of the paper leaf processing apparatus of 1st Embodiment which concerns on this invention. 本発明に係る第2実施形態の紙葉類処理装置を正面側から見た概略構成図である。It is a schematic block diagram which looked at the paper leaf processing apparatus of 2nd Embodiment which concerns on this invention from the front side. 本発明に係る第2実施形態の紙葉類処理装置の分類処理のフローチャートである。It is a flowchart of the classification process of the paper leaf processing apparatus of 2nd Embodiment which concerns on this invention. 本発明に係る第3実施形態の紙葉類処理装置を正面側から見た概略構成図である。It is a schematic block diagram which looked at the paper leaf processing apparatus of 3rd Embodiment which concerns on this invention from the front side.

<第1実施形態>
本発明に係る第1実施形態の紙葉類処理装置を図1〜図6を参照して以下に説明する。図1に示す本実施形態に係る紙葉類処理装置1は、紙葉類Sとして主に紙幣を分類処理するものであり、投入された紙葉類Sを、計数対象である計数対象紙葉類と計数対象ではないリジェクト紙葉類とに分類し、計数対象紙葉類をさらに種類別に計数して種類別に収容し、計数結果と収容先とを関連付けて表示するものである。以下の説明において、「前」は操作者側、「後」は操作者とは反対側、「右」は操作者から見て右側、「左」は操作者から見て左側である。 <First Embodiment>
The paper leaf processing apparatus of the first embodiment according to the present invention will be described below with reference to FIGS. 1 to 6. The paper leaf processing apparatus 1 according to the present embodiment shown in FIG. 1 mainly classifies and processes bills as paper leaves S, and the inserted paper leaves S are counted as counting target paper leaves. It is classified into types and rejected papers that are not counted, and the papers to be counted are further counted by type and stored by type, and the counting result and the storage destination are displayed in association with each other. In the following description, "front" is the operator side, "rear" is the side opposite to the operator, "right" is the right side when viewed from the operator, and "left" is the left side when viewed from the operator.

第1実施形態の紙葉類処理装置1は、図1に示すように、ベース機2と、処理機としての分類収容機3とが組み合わせられて構成されている。 As shown in FIG. 1, the paper leaf processing device 1 of the first embodiment is configured by combining a base machine 2 and a classification and accommodating machine 3 as a processing machine.

ベース機2は、その右側面側の下部に設けられて右側面および前面に亘ってベース機2外すなわち紙葉類処理装置1外に常時開口する受入口11と、同じく右側面側の上下方向中間部に設けられて右側面および前面に亘ってベース機2外すなわち紙葉類処理装置1外に常時開口する下側リジェクト収容口12(収容口,リジェクト収容口,リジェクト仮収容口)と、同じく右側面側の上部に設けられて右側面および前面に亘ってベース機2外すなわち紙葉類処理装置1外に常時開口する上側リジェクト収容口13(収容口,リジェクト収容口,リジェクト決定収容口)と、を有している。受入口11、下側リジェクト収容口12および上側リジェクト収容口13は、前後方向および左右方向の位置を重ね合わせて下から上に並んで配置されている。 The base machine 2 is provided at the lower part on the right side surface side thereof and is always open to the outside of the base machine 2, that is, the outside of the paper leaf processing device 1 over the right side surface and the front surface. A lower reject accommodating port 12 (accommodation port, reject accommodating port, reject temporary accommodating port) provided in the middle portion and always open to the outside of the base machine 2, that is, the outside of the paper leaf processing device 1 over the right side surface and the front surface. Similarly, the upper reject accommodating port 13 (accommodation port, reject accommodating port, reject determination accommodating port) which is provided on the upper part on the right side and always opens to the outside of the base machine 2, that is, the outside of the paper leaf processing device 1 over the right side and the front surface. ) And. The receiving port 11, the lower reject accommodating port 12, and the upper reject accommodating port 13 are arranged side by side from the bottom to the top so that the positions in the front-rear direction and the left-right direction are overlapped.

受入口11には、複数枚の紙葉類Sが長辺を前後に沿わせ、短辺を左右に沿わせて上下方向に集積された状態でセットされることになる。受入口11は、このようにセットされた集積状態の紙葉類Sを最下のものから一枚ずつ分離し繰り出して紙葉類処理装置1内に取り込む。受入口11から繰り出される紙葉類Sは、その短辺の延在方向に沿って移動する。 A plurality of sheets of paper leaves S are set in the receiving port 11 in a state of being accumulated in the vertical direction with the long side along the front and back and the short side along the left and right. The receiving port 11 separates the paper sheets S in the accumulated state set in this way one by one from the lowest one, feeds them out, and takes them into the paper leaf processing apparatus 1. The paper sheets S fed out from the reception port 11 move along the extending direction of their short sides.

ベース機2の内部には、受入口11から繰り出された紙葉類Sを搬送するベース機内搬送構成部21と、ベース機内搬送構成部21で搬送中の紙葉類Sを識別しつつ計数する識別部22とが設けられている。ベース機内搬送構成部21で搬送される紙葉類Sは、その短辺の延在方向に沿って移動する。識別部22は、ベース機内搬送構成部21の受入口11側の端部位置に設けられて、受入口11が繰り出す紙葉類Sの搬送状態を検出する検出部23と、ベース機内搬送構成部21の検出部23よりも下流側に設けられて紙葉類Sの搬送状態以外の金種等の種類の識別を行う識別本体部24と、を有している。 Inside the base machine 2, the in-base machine transport component 21 for transporting the paper leaves S fed from the receiving port 11 and the paper leaves S being transported by the base in-machine transport component 21 are identified and counted. An identification unit 22 is provided. The paper sheets S transported by the base machine in-machine transport component 21 move along the extending direction of their short sides. The identification unit 22 is provided at the end position of the base machine in-machine transfer configuration unit 21 on the receiving port 11 side, and is a detection unit 23 for detecting the transport state of the paper sheets S delivered by the reception port 11 and a base in-machine transport configuration unit. It has an identification main body unit 24 which is provided on the downstream side of the detection unit 23 of 21 and identifies a type such as a denomination other than the conveyed state of the paper sheets S.

ベース機内搬送構成部21は、受入口11からベース機2の左側面に向けて延出する左方延出部21aと、左方延出部21aの左側面近傍の端部から上方に延出する上方延出部21bと、上方延出部21bの上端部からベース機2の左側面に向け延出して左側面に開口する左方延出部21cと、を有している。ベース機内搬送構成部21には、鉛直方向に沿う上方延出部21bに識別部22が設けられている。 The base machine in-flight transport component 21 extends upward from the left extension portion 21a extending from the receiving port 11 toward the left side surface of the base machine 2 and the end portion near the left side surface of the left extension portion 21a. It has an upward extending portion 21b and a left extending portion 21c extending from the upper end portion of the upward extending portion 21b toward the left side surface of the base machine 2 and opening to the left side surface. The base machine in-machine transfer configuration unit 21 is provided with an identification unit 22 at an upward extending unit 21b along the vertical direction.

ベース機内搬送構成部21は、上方延出部21bの識別部22よりも上側から分岐し、ベース機2の右側面に向け延出して下側リジェクト収容口12に繋がる分岐延出部21dと、上方延出部21bの分岐延出部21dよりも上側の上端部から分岐し、ベース機2の右側面に向け延出して上側リジェクト収容口13に繋がる分岐延出部21eと、を有している。 The base machine in-flight transport configuration unit 21 branches from above the identification unit 22 of the upper extension unit 21b, extends toward the right side surface of the base machine 2, and connects to the lower reject storage port 12 and the branch extension unit 21d. The upper extending portion 21b has a branch extending portion 21e that branches from the upper end portion above the branch extending portion 21d, extends toward the right side surface of the base machine 2, and is connected to the upper reject accommodating port 13. There is.

分類収容機3の内部には、ベース機2の左方延出部21cに接続され、左方延出部21cから繰り出された紙葉類Sを搬送する分類収容機内搬送構成部27(処理機内搬送構成部)が設けられている。分類収容機内搬送構成部27で搬送される紙葉類Sも、その短辺の延在方向に沿って移動する。 Inside the sorting and accommodating machine 3, a transport component 27 (inside the processing machine) is connected to the left extending portion 21c of the base machine 2 and conveys the paper sheets S unwound from the left extending portion 21c. A transport component) is provided. The paper sheets S transported by the classification and accommodating machine transport component 27 also move along the extending direction of their short sides.

分類収容機内搬送構成部27は、分類収容機3の右側面の上部に開口し、分類収容機3の左側面に向け水平かつ直線状に延出して、左側面の上部に開口する連結搬送構成部27Aと、連結搬送構成部27Aの左側部分から下側に分岐する分岐搬送構成部27Bとを有している。連結搬送構成部27Aと分岐搬送構成部27Bとは、それぞれ個別の駆動モータを有しており、独立して駆動可能となっている。 The in-class storage machine transport configuration unit 27 has a connected transport configuration that opens at the upper part of the right side surface of the classification / storage machine 3, extends horizontally and linearly toward the left side surface of the classification / storage machine 3, and opens at the upper part of the left side surface. It has a portion 27A and a branch transport configuration portion 27B that branches downward from the left side portion of the connected transport configuration unit 27A. The connected transfer component 27A and the branch transfer component 27B each have their own drive motors and can be driven independently.

分岐搬送構成部27Bは、連結搬送構成部27Aの左側から分岐して鉛直下方に延出し、連結搬送構成部27Aとは反対の末端部が、分類収容機3の右側面に向けて延出する下方延出部27Baと、下方延出部27Baの中間位置から分岐して分類収容機3の右側面に向けて延出する、複数具体的には3つの分岐延出部27Bbとを有している。下方延出部27Baの末端部と3つの分岐延出部27Bbとに、それぞれ計数後収容口14(収容口)が接続されている。よって、分類収容機3には、複数(具体的には4カ所)の計数後収容口14が設けられている。計数後収容口14は、いずれも、分類収容機3の前面から分類収容機3外すなわち紙葉類処理装置1外に常時開口している。 The branch transfer configuration unit 27B branches from the left side of the connection transfer configuration unit 27A and extends vertically downward, and the end portion opposite to the connection transfer configuration unit 27A extends toward the right side surface of the classification and accommodating machine 3. It has a downward extending portion 27Ba and a plurality of specifically three branch extending portions 27Bb that branch from an intermediate position of the downward extending portion 27Ba and extend toward the right side surface of the classification and accommodating machine 3. There is. After counting, the accommodation port 14 (accommodation port) is connected to the terminal portion of the downward extension portion 27Ba and the three branch extension portions 27Bb, respectively. Therefore, the classification and accommodating machine 3 is provided with a plurality of (specifically, four locations) post-counting accommodating ports 14. After counting, each of the storage ports 14 is always open from the front surface of the classification storage machine 3 to the outside of the classification storage machine 3, that is, the outside of the paper leaf processing device 1.

分類収容機3に設けられた複数の計数後収容口14は、前後方向および左右方向の位置を重ね合わせて上から下に並んで配置されている。複数の計数後収容口14は、ベース機2に設けられた受入口11、下側リジェクト収容口12および上側リジェクト収容口13とも、前後方向の位置を重ね合わせている。 The plurality of post-counting storage ports 14 provided in the classification storage machine 3 are arranged side by side from top to bottom with their positions in the front-rear direction and the left-right direction overlapped. The plurality of post-counting accommodating ports 14 are positioned in the front-rear direction with respect to the receiving port 11, the lower reject accommodating port 12, and the upper reject accommodating port 13 provided in the base machine 2.

互いに接続されたベース機内搬送構成部21と分類収容機内搬送構成部27とが、受入口11から繰り出された紙葉類Sを搬送すると共に、搬送中に紙葉類Sが識別部22で識別され、識別部22よりも下流側の部分が識別部22の識別結果に基づいて紙葉類Sを下側リジェクト収容口12、上側リジェクト収容口13および複数の計数後収容口14のうちの一つに択一的に振り分ける搬送部30を構成している。 The base machine in-flight transport component 21 and the classification and accommodating machine in-flight transport component 27, which are connected to each other, convey the paper sheets S fed from the receiving port 11, and the paper sheets S are identified by the identification unit 22 during transportation. The portion downstream of the identification unit 22 is one of the lower reject storage port 12, the upper reject storage port 13, and the plurality of post-counting storage ports 14 based on the identification result of the identification unit 22. It constitutes a transport unit 30 that selectively distributes the paper.

紙葉類処理装置1において、下側リジェクト収容口12、上側リジェクト収容口13および複数の計数後収容口14は、識別部22の識別結果に基づいて紙葉類Sを分類して紙葉類処理装置1外に取り出し可能に収容する。 In the paper leaf processing apparatus 1, the lower reject storage port 12, the upper reject storage port 13, and the plurality of post-counting storage ports 14 classify the paper leaves S based on the identification result of the identification unit 22. It is housed outside the processing device 1 so that it can be taken out.

下側リジェクト収容口12および上側リジェクト収容口13は、受入口11で紙葉類処理装置1内に取り込まれた紙葉類Sのうち、識別部22で計数対象紙葉類以外のリジェクト紙葉類と識別された紙葉類Sを集積させて紙葉類処理装置1外に取り出し可能に収容するものである。下側リジェクト収容口12および上側リジェクト収容口13は、いずれも、ベース機内搬送構成部21から紙葉類Sが繰り出されることになり、このように繰り出された紙葉類Sを繰り出し順(言い換えれば受入口11の取り込み順)に下から上に集積させる。紙葉類Sは、ベース機内搬送構成部21の分岐延出部21dから下側リジェクト収容口12に繰り出されると、下側リジェクト収容口12内で、長辺を前後に沿わせ、短辺を左右に沿わせて下から上に集積される。また、紙葉類Sは、ベース機内搬送構成部21の分岐延出部21eから上側リジェクト収容口13に繰り出されると、上側リジェクト収容口13内で、長辺を前後に沿わせ、短辺を左右に沿わせて下から上に集積される。複数、具体的には2つの下側リジェクト収容口12および上側リジェクト収容口13は、識別部22でリジェクト紙葉類と識別された紙葉類Sをリジェクト要因別に分類して収容する。 The lower reject storage port 12 and the upper reject storage port 13 are rejected paper leaves other than the paper leaves to be counted by the identification unit 22 among the paper leaves S taken into the paper leaf processing apparatus 1 at the receiving port 11. Paper leaves S identified as a class are accumulated and stored outside the paper leaf processing apparatus 1 so that they can be taken out. In both the lower reject accommodating port 12 and the upper reject accommodating port 13, the paper leaves S are fed out from the base in-machine transport component 21, and the paper leaves S fed in this way are fed out in the order of feeding (in other words). For example, the paper is collected from the bottom to the top in the order of taking in the receiving port 11. When the paper sheets S are fed from the branch extension portion 21d of the base machine in-flight transport component 21 to the lower reject storage port 12, the long side is aligned with the front and back in the lower reject storage port 12, and the short side is set. It is accumulated from bottom to top along the left and right. Further, when the paper sheets S are fed from the branch extension portion 21e of the base machine in-flight transport component 21 to the upper reject accommodating port 13, the long side is aligned in the front-rear direction and the short side is set in the upper reject accommodating port 13. It is accumulated from bottom to top along the left and right. A plurality of, specifically, two lower reject storage ports 12 and an upper reject storage port 13 classify and store the paper leaves S identified as rejected paper leaves by the identification unit 22 according to the rejection factor.

複数の計数後収容口14は、受入口11で紙葉類処理装置1内に取り込まれた紙葉類Sのうち、識別部22で計数対象紙葉類と識別されて種類別に計数された紙葉類Sを種類別に集積させて紙葉類処理装置1外に取り出し可能に収容するものである。複数の計数後収容口14は、いずれも、分類収容機内搬送構成部27から紙葉類Sが繰り出されることになり、このように繰り出された紙葉類Sを繰り出し順(言い換えれば受入口11の取り込み順)に右から左に集積させる。 The plurality of post-counting storage ports 14 are the papers S taken into the paper leaf processing apparatus 1 at the receiving port 11, which are identified by the identification unit 22 as the paper leaves to be counted and counted by type. The leaves S are accumulated by type and stored outside the paper leaf processing apparatus 1 so that they can be taken out. In each of the plurality of post-counting storage ports 14, the paper leaves S are fed out from the classification and storage machine in-carrying component 27, and the paper leaves S fed in this way are delivered in the delivery order (in other words, the receiving port 11). Accumulate from right to left in the order of uptake).

紙葉類処理装置1のベース機2の前面には、操作入力を受け付けるとともに情報表示を行う操作表示部31が設けられている。また、ベース機2の内部には、ベース機2およびベース機2に連結された分類収容機3の各部を制御する制御部32と、識別の基準となるマスタデータや識別計数結果のデータ等を記憶する記憶部33とが設けられている。 An operation display unit 31 that receives operation input and displays information is provided on the front surface of the base machine 2 of the paper leaf processing device 1. Further, inside the base machine 2, a control unit 32 that controls each part of the base machine 2 and the classification and accommodating machine 3 connected to the base machine 2, master data as a reference for identification, data of identification count result, and the like are stored. A storage unit 33 for storing is provided.

ベース機2に設けられた受入口11は、上述したように紙葉類処理装置1の右側面側に右側方および前方に常時開口するように設けられている。受入口11は、水平に対して若干左下がりに傾斜して配置される底部40と、底部40の左端位置から底部40に対して垂直をなして上方に延出する壁部41と、底部40の後端縁部から鉛直上方に延出する壁部43とを有している。底部40および壁部41は前後方向に広がっており、壁部43は鉛直方向および左右方向に広がっている。底部40と壁部41と壁部43とは互いに垂直に配置されている。受入口11には、紙葉類Sが、壁部41に一方の長辺を、壁部43に一方の短辺を当接させるようにして、底部40上に集積状態でセットされる。受入口11は、底部40の上方に設けられて壁部41に沿って昇降するビルプレス45を有しており、ビルプレス45は、底部40上に載置された紙葉類Sを底部40に向けて押圧する。 As described above, the receiving port 11 provided in the base machine 2 is provided so as to always open to the right side and to the front on the right side surface side of the paper leaf processing device 1. The receiving port 11 has a bottom 40 that is arranged so as to be slightly inclined to the left with respect to the horizontal, a wall 41 that extends upward from the left end position of the bottom 40 perpendicular to the bottom 40, and a bottom 40. It has a wall portion 43 extending vertically upward from the rear end edge portion. The bottom portion 40 and the wall portion 41 extend in the front-rear direction, and the wall portion 43 extends in the vertical direction and the left-right direction. The bottom portion 40, the wall portion 41, and the wall portion 43 are arranged perpendicular to each other. Paper leaves S are set in the receiving port 11 in an integrated state on the bottom portion 40 so that one long side is brought into contact with the wall portion 41 and one short side is brought into contact with the wall portion 43. The receiving port 11 has a bill press 45 that is provided above the bottom 40 and moves up and down along the wall 41, and the bill press 45 has a paper leaf S placed on the bottom 40 at the bottom 40. Press toward.

受入口11は、底部40上にセットされた紙葉類Sのうちの最下の紙葉類Sを左方のベース機内搬送構成部21に向けて蹴り出す蹴出ローラ51と、蹴出ローラ51で蹴り出された紙葉類Sを紙葉類処理装置1の内部に取り込んでベース機内搬送構成部21に受け渡す取込ローラ52と、取込ローラ52で取り込む紙葉類Sを一枚ずつに分離する分離ローラ53とを有している。蹴出ローラ51、取込ローラ52および分離ローラ53が、受入口11にセットされた紙葉類Sを一枚ずつ分離して紙葉類処理装置1の内部に取り込む取込部55を構成している。 The receiving port 11 has a kicking roller 51 and a kicking roller that kick out the lowest paper leaf S among the paper leaves S set on the bottom 40 toward the left base in-flight transport component 21. One piece of paper leaves S taken in by the taking-in roller 52 and the taking-in roller 52 that takes in the paper leaves S kicked out by 51 into the inside of the paper leaf processing device 1 and delivers it to the base in-machine transport component 21. It has a separation roller 53 that separates each. The kicking roller 51, the taking-in roller 52, and the separating roller 53 form a taking-in portion 55 that separates the paper sheets S set in the receiving port 11 one by one and takes them into the paper leaf processing device 1. ing.

上記した識別部22の検出部23は、ベース機内搬送構成部21の左方延出部21aにおける受入口11の近傍位置に配置されており、紙葉類Sの受入口11からの繰り出しの有無および紙葉類Sの搬送状態を検出する。検出部23は、紙葉類Sの光透過率あるいは物理的厚さから重送の有無を検出し、紙葉類Sの長辺方向両側のそれぞれの検知タイミングのずれから斜行の有無を検出し、隣り合う紙葉類Sのそれぞれの検知タイミングの間隔からニアフィードの有無を検出する。検出部23で、重送、斜行およびニアフィードのいずれも無いことが検出された紙葉類Sは、言い換えれば、検出部23で正常搬送であることが検出された紙葉類Sになる。 The detection unit 23 of the identification unit 22 described above is arranged at a position near the reception port 11 in the left extension unit 21a of the base machine in-machine transport configuration unit 21, and whether or not the paper sheets S are fed out from the reception port 11. And the transport state of the paper leaf S is detected. The detection unit 23 detects the presence or absence of double feeding from the light transmittance or the physical thickness of the paper sheet S, and detects the presence or absence of skew from the difference in detection timing on both sides of the paper leaf S in the long side direction. Then, the presence or absence of near feed is detected from the interval between the detection timings of the adjacent paper sheets S. The paper sheets S detected by the detection unit 23 to have no double feed, skew, or near feed are, in other words, the paper sheets S detected to be normally transported by the detection unit 23. ..

識別部22の識別本体部24は、紙葉類Sの可視光照射時および紫外線照射時の画像を検出すると共に、それぞれを基準データと比較して、一致すると判定できる基準データの種類を、紙葉類Sの種類と特定する。このように種類が特定された紙葉類Sは、識別異常なしの紙葉類Sとなる。一方、一致すると判定できる基準データがない場合、識別異常ありの紙葉類Sと特定する。 The identification main body 24 of the identification unit 22 detects images of the paper leaves S when irradiated with visible light and ultraviolet rays, compares each of them with the reference data, and determines the type of reference data that can be determined to match. Identify as the type of leaf S. The paper sheets S whose type is specified in this way are the paper leaves S without any identification abnormality. On the other hand, when there is no reference data that can be determined to match, it is identified as a paper leaf S having an identification abnormality.

ベース機2に設けられた下側リジェクト収容口12および上側リジェクト収容口13は、同様の構成であり、水平に対して若干左下がりに傾斜して配置される底部60と、底部60の左端位置から底部60に略垂直をなして上方に延出する壁部61と、底部60の後端縁部から鉛直上方に延出する壁部63と、を有している。底部60および壁部61は前後方向に広がっており、壁部63は鉛直方向および左右方向に広がっている。 The lower reject accommodating port 12 and the upper reject accommodating port 13 provided in the base machine 2 have the same configuration, and have a bottom portion 60 arranged so as to be slightly inclined to the left with respect to the horizontal and a left end position of the bottom portion 60. It has a wall portion 61 extending upward substantially perpendicular to the bottom portion 60, and a wall portion 63 extending vertically upward from the rear end edge portion of the bottom portion 60. The bottom portion 60 and the wall portion 61 extend in the front-rear direction, and the wall portion 63 extends in the vertical direction and the left-right direction.

壁部61の上部には、ベース機内搬送構成部21の分岐延出部21dの端末位置の近傍に設けられて分岐延出部21dで搬送されてきた紙葉類Sを繰り出して底部60に集積させる羽根車65が設けられている。羽根車65は、分岐延出部21dで搬送されてきた紙葉類Sを羽根間に挟んで共に回転し、この紙葉類Sが壁部61に当接して羽根間から抜け出すと、この紙葉類Sを羽根で底部60側に押す。 Paper sheets S provided near the terminal position of the branch extension portion 21d of the base machine in-machine transport configuration portion 21 and transported by the branch extension portion 21d are fed out and accumulated on the bottom 60 on the upper portion of the wall portion 61. An impeller 65 is provided. The impeller 65 rotates together with the paper leaves S conveyed by the branch extension portion 21d sandwiched between the blades, and when the paper leaves S abuts on the wall portion 61 and comes out of the blades, the paper Push the leaves S with the wings toward the bottom 60 side.

図示は略すが、下側リジェクト収容口12には、下側リジェクト収容口12内の紙葉類Sの有無を検知する紙葉類有無検知センサと、この紙葉類有無センサの検知結果に基づいて点灯状態が切り替えられる有無表示照明とが設けられている。有無表示照明は、下側リジェクト収容口12内に紙葉類Sがあることが紙葉類有無検知センサで検知されている状態では点灯し、下側リジェクト収容口12内に紙葉類Sがないことが紙葉類有無検知センサで検知されている状態では消灯する。また、有無表示照明は、例えば下側リジェクト収容口12内に紙葉類Sがフル状態になると点滅する。 Although not shown, the lower reject storage port 12 is based on a paper leaf presence detection sensor that detects the presence or absence of paper leaves S in the lower reject storage port 12 and the detection result of the paper leaf presence / absence sensor. There is a presence / absence indicator lighting that can switch the lighting state. The presence / absence display lighting is turned on when it is detected by the paper leaf / presence / absence detection sensor that there is a paper leaf S in the lower reject storage port 12, and the paper leaf S is in the lower reject storage port 12. The light turns off when it is detected by the paper leaf presence / absence detection sensor. Further, the presence / absence display illumination blinks, for example, when the paper sheets S are in the full state in the lower reject storage port 12.

有無表示照明は、例えば、底部60に、ベース機2すなわち紙葉類処理装置1の前面位置および右側面位置で外に向け発光するように設けられている。羽根車65で繰り出された紙葉類Sを案内して底部60に集積させる図示略のカバーがある場合、有無表示照明を、このカバーに設けても良い。その場合、カバーを透明材料で形成し、カバーの全体を光らせるようにしても良い。上側リジェクト収容口13にも、同様の紙葉類有無検知センサおよび有無表示照明が設けられている。 The presence / absence display illumination is provided, for example, on the bottom portion 60 so as to emit light outward at the front position and the right side position of the base machine 2, that is, the paper leaf processing device 1. If there is a cover (not shown) that guides the paper sheets S drawn out by the impeller 65 and accumulates them on the bottom 60, presence / absence indicator lighting may be provided on this cover. In that case, the cover may be made of a transparent material so that the entire cover is illuminated. A similar paper leaf presence / absence detection sensor and presence / absence indicator lighting are also provided in the upper reject storage port 13.

分類収容機3に設けられた複数の計数後収容口14は、いずれも同様の構成であり、水平に対し右下がりに傾斜する底部70と、底部70の右端位置から底部70に対し垂直をなして上方に延出する壁部72と、底部60の後端縁部から鉛直に延出する壁部73と、を有している。底部70および壁部72は前後方向に広がっており、壁部73は鉛直方向および左右方向に広がっている。底部70と壁部72と壁部73とは互いに垂直に配置されている。 The plurality of post-counting storage ports 14 provided in the classification storage machine 3 all have the same configuration, and have a bottom 70 that inclines downward to the right with respect to the horizontal and a bottom 70 that is perpendicular to the bottom 70 from the right end position of the bottom 70. It has a wall portion 72 extending upward and a wall portion 73 extending vertically from the rear end edge portion of the bottom portion 60. The bottom portion 70 and the wall portion 72 extend in the front-rear direction, and the wall portion 73 extends in the vertical direction and the left-right direction. The bottom portion 70, the wall portion 72, and the wall portion 73 are arranged perpendicular to each other.

計数後収容口14の底部70の壁部72とは反対側の端部には、分岐搬送構成部27Bの当該計数後収容口14の近傍位置に設けられて紙葉類Sを当該計数後収容口14内に繰り出す羽根車75が設けられている。羽根車75は、分岐搬送構成部27Bで搬送されてきた紙葉類Sを羽根間に挟んで共に回転し、この紙葉類Sが底部70に当接して羽根間から抜け出すと、この紙葉類Sを羽根で壁部72側に押す。これにより、紙葉類Sは、短辺を上下に沿わせて底部70上に立った状態で、壁部72に順に集積される。複数の計数後収容口14のそれぞれにも、下側リジェクト収容口12および上側リジェクト収容口13と同様の紙葉類有無センサおよび有無表示照明が設けられている。計数後収容口14の有無表示照明は、例えば、底部70に、分類収容機3すなわち紙葉類処理装置1の前面位置で外に向け発光するように設けられている。 At the end of the bottom 70 of the post-counting storage port 14 opposite to the wall portion 72, paper sheets S are provided in the vicinity of the post-counting storage port 14 of the branch transport component 27B to store the post-counting storage port 14. An impeller 75 is provided in the mouth 14. The impeller 75 rotates together with the paper sheets S conveyed by the branch transfer component 27B sandwiched between the blades, and when the paper leaves S abuts on the bottom 70 and comes out of the blades, the paper leaves Class S is pushed toward the wall 72 side with a blade. As a result, the paper leaves S are sequentially accumulated on the wall portion 72 in a state where the short sides are vertically aligned and standing on the bottom portion 70. Each of the plurality of post-counting storage ports 14 is also provided with a paper leaf presence / absence sensor and presence / absence indicator lighting similar to those of the lower reject storage port 12 and the upper reject storage port 13. The presence / absence indicator lighting of the storage port 14 after counting is provided, for example, on the bottom 70 so as to emit light outward at the front position of the classification storage machine 3, that is, the paper leaf processing device 1.

紙葉類処理装置1において、受入口11と識別本体部24とは上下方向および前後方向の位置を重ね合わせて配置されており、横方向のうちの左右方向に並んで設けられている。受入口11は、図2に示すように、紙葉類処理装置1の受入口11を除く装置本体81に対し、左右方向一側である右側、すなわち識別本体部24とは反対側に引き出し可能であり、左右方向他側である左側、すなわち識別本体部24側に押し込み可能となっている。これにより、受入口11を右側に引き出して左方延出部21aを開放することで、左方延出部21aのジャム紙葉類を容易に取り出すことができるようになっている。 In the paper leaf processing apparatus 1, the receiving port 11 and the identification main body portion 24 are arranged so as to overlap the positions in the vertical direction and the front-rear direction, and are provided side by side in the left-right direction in the horizontal direction. As shown in FIG. 2, the receiving port 11 can be pulled out to the right side of the device main body 81 excluding the receiving port 11 of the paper leaf processing device 1 in the left-right direction, that is, to the side opposite to the identification main body portion 24. It is possible to push it into the left side, which is the other side in the left-right direction, that is, the identification main body portion 24 side. As a result, by pulling out the receiving port 11 to the right side and opening the left extending portion 21a, the jam paper leaves of the left extending portion 21a can be easily taken out.

また、識別本体部24は、その内部に配置されたベース機内搬送構成部21の一部を挟んで、左側、すなわち受入口11とは反対側の識別本体構成部82と、右側、すなわち受入口11側の識別本体構成部83とから構成されている。識別本体部24は、受入口11が装置本体81から識別本体部24とは反対側に引き出された状態で、識別本体構成部83が右側、すなわち識別本体構成部82から離れる方向にスライド可能となっている。このように、識別本体構成部83をスライドさせて識別本体構成部82から離すことによって、識別本体部24は、左右方向に分離されてベース機内搬送構成部21の識別本体部24の内部に配置された部分を開放可能となっている。紙葉類処理装置1のベース機2の図示略の前面扉が開かれた状態で、識別本体部24が内部のベース機内搬送構成部21を開放することで、識別本体部24内のジャム紙葉類を前方から容易に取り出すことができるようになっている。 Further, the identification main body 24 sandwiches a part of the base in-machine transport configuration 21 arranged inside the identification main body 24 with the identification main body 82 on the left side, that is, on the side opposite to the receiving port 11, and the right side, that is, the receiving port. It is composed of an identification main body component 83 on the 11 side. The identification main body 24 is slidable so that the identification main body 83 can be slid to the right side, that is, away from the identification main body 82, with the receiving port 11 pulled out from the device main body 81 to the side opposite to the identification main body 24. It has become. By sliding the identification body configuration unit 83 away from the identification body configuration unit 82 in this way, the identification body unit 24 is separated in the left-right direction and arranged inside the identification body unit 24 of the base in-machine transport configuration unit 21. It is possible to open the part that has been made. With the front door (not shown) of the base machine 2 of the paper leaf processing device 1 opened, the identification main body 24 opens the internal base machine transport component 21 to jam the jam paper in the identification main body 24. The leaves can be easily taken out from the front.

ここで、識別本体構成部83が識別本体構成部82から離れる方向にスライドする以外にも、図3に示すように、識別本体構成部83が上部を中心に識別本体構成部82から離れる方向に揺動可能となっていても、内部のベース機内搬送構成部21を開放可能となる。また、図4に示すように、識別本体構成部83が下部を中心に識別本体構成部82から離れる方向に揺動可能となっていても、内部のベース機内搬送構成部21を開放可能となる。 Here, in addition to the identification main body configuration unit 83 sliding in the direction away from the identification main body configuration unit 82, as shown in FIG. 3, the identification main body configuration unit 83 moves away from the identification main body configuration unit 82 centering on the upper portion. Even if the swing is possible, the internal base machine transfer component 21 can be opened. Further, as shown in FIG. 4, even if the identification main body configuration unit 83 can swing in the direction away from the identification main body configuration unit 82 centering on the lower portion, the internal base in-machine transfer configuration unit 21 can be opened. ..

紙葉類処理装置1は、操作表示部31へのモード選択操作により選択される複数の動作モードで動作する。 The paper leaf processing device 1 operates in a plurality of operation modes selected by a mode selection operation on the operation display unit 31.

「第1動作モード」
第1動作モードでは、下側リジェクト収容口12を、リジェクト紙葉類と識別された紙葉類Sのうち、識別部22で再度識別することで計数後収容口14に収容される可能性がある紙葉類Sを収容するリジェクト仮収容口とし、上側リジェクト収容口13を、リジェクト紙葉類と識別された紙葉類Sのうち、識別部22で再度識別しても計数後収容口14に収容される可能性がない紙葉類Sを収容するリジェクト決定収容口とする。 "First operation mode"
In the first operation mode, the lower reject accommodating port 12 may be accommodated in the accommodating opening 14 after counting by re-identifying the lower reject accommodating port 12 by the identification unit 22 among the paper sheets S identified as rejected paper sheets. A reject temporary storage port for accommodating a certain paper leaf S is used, and the upper reject storage port 13 is a post-counting storage port 14 even if the identification unit 22 of the paper leaves S identified as rejected paper leaves is re-identified. It is used as a reject determination storage port for storing paper sheets S that are unlikely to be stored in.

ここで、識別部22で再度識別することで計数後収容口14に収容される可能性があるリジェクト紙葉類として識別される紙葉類Sには、いずれも検出部23で検出される、重送の紙葉類Sと、斜行の紙葉類Sと、前走の紙葉類Sとの間隔が所定値よりも狭いニアフィードの紙葉類Sと、に加えて、識別本体部24で識別される、収容先すなわち行き先の計数後収容口14がフルで集積できないためにリジェクトされる紙葉類Sと、が含まれる。識別部22で再度識別しても計数後収容口14に収容される可能性がないリジェクト紙葉類として識別される紙葉類Sには、偽の紙葉類S、損傷の紙葉類S、テープ貼付の紙葉類S、紫外線検査異常の紙葉類S、紙葉類Sとしては正常であるが該当する条件の計数後収容口14がない紙葉類S(例えば、新券計数モードの際の旧券、千円券バッチ計数の際の他の金種など)等がある。 Here, any of the paper leaves S identified as rejected paper leaves that may be stored in the storage port 14 after counting by being identified again by the identification unit 22 is detected by the detection unit 23. In addition to the double-fed paper leaf S, the skewed paper leaf S, and the near-feed paper leaf S in which the distance between the preceding paper leaf S is narrower than a predetermined value, the identification main body portion Included are paper sheets S identified in 24, which are rejected because the containment destination, i.e., the accommodation port 14 after counting the destination is full and cannot be accumulated. Paper leaves S identified as rejected paper leaves that are not likely to be stored in the storage port 14 after counting even if they are identified again by the identification unit 22 include fake paper leaves S and damaged paper leaves S. , Paper leaves S with tape attached, Paper leaves S with abnormal ultraviolet inspection, Paper leaves S that are normal but do not have a storage port 14 after counting the applicable conditions (for example, new ticket counting mode) There are old tickets at the time of, other denominations at the time of batch counting of 1,000 yen tickets, etc.).

第1動作モードでは、分類処理開始前に、各計数後収容口14に収容する計数対象紙葉類としての紙葉類Sの種類が設定されるようになっている。例えば、複数の計数後収容口14のうちの一つの第1の計数後収容口14に、識別部22で計数後の紙葉類Sとして万円券の紙幣を、他の一つの第2の計数後収容口14に、識別部22で計数後の紙葉類Sとして五千円券の紙幣を、さらに他の一つの第3の計数後収容口14に、識別部22で計数後の紙葉類Sとして千円券の紙幣を、さらに他の一つの第4の計数後収容口14に、識別部22で計数後の紙葉類Sとして二千円券の紙幣を、それぞれ収容するように設定される。このように、計数後収容口14に紙幣を金種別に分類して収納する場合、第1動作モードは、紙幣金種分類モードとなる。 In the first operation mode, the type of paper leaf S as the counting target paper leaf to be stored in the storage port 14 after each counting is set before the start of the classification process. For example, in the first post-counting storage port 14 of the plurality of post-counting storage ports 14, a 10,000-yen banknote is placed as the paper sheet S after counting by the identification unit 22, and the other second post-counting storage port 14 is inserted. A banknote of 5,000 yen as the paper leaf S after counting by the identification unit 22 is placed in the post-counting storage port 14, and the paper after counting by the identification unit 22 is placed in the other third post-counting storage port 14. A thousand-yen bill is stored as the leaf S, and a 2,000-yen bill is stored as the paper leaf S counted by the identification unit 22 in the other fourth post-counting storage port 14. Is set to. In this way, when the bills are classified and stored in the storage port 14 after counting by denomination, the first operation mode is the bill denomination classification mode.

例えば、このように各計数後収容口14に収容する計数対象紙葉類としての紙葉類Sの種類が設定された状態で実行される第1動作モードでは、受入口11に紙葉類Sが集積状態でセットされて操作表示部31に一の分類処理のスタート操作が入力されると、制御部32は、受入口11に投入された紙葉類Sについて図5に示すフローチャートに沿って制御を行う。 For example, in the first operation mode executed in a state where the type of the paper leaf S as the counting target paper leaf to be stored in the storage port 14 after each counting is set, the paper leaf S is at the reception port 11. Is set in the integrated state, and when the start operation of one classification process is input to the operation display unit 31, the control unit 32 follows the flowchart shown in FIG. 5 for the paper sheets S inserted into the reception port 11. Take control.

すなわち、受入口11にセットされた集積状態の紙葉類Sを取込部55で一枚分離して繰り出させて紙葉類処理装置1内に取り込み(ステップSa1)、この紙葉類Sを搬送部30で搬送させる。搬送部30での搬送開始直後に、受入口11の近傍に設けられた検出部23が、この紙葉類Sの搬送状態を検出する(ステップSa2)。この紙葉類Sについて、検出部23で検出された搬送状態が、重送、斜行およびニアフィードを含む異常搬送状態のリジェクト紙葉類である場合、制御部32は、この紙葉類Sを計数せずに、搬送異常有りと判定し(ステップSa3:NO)、搬送部30を制御して、この紙葉類Sを下側リジェクト収容口12に搬送して収容させる(ステップSa4)。 That is, one sheet of the accumulated paper sheets S set in the receiving port 11 is separated by the intake unit 55 and fed out into the paper leaf processing apparatus 1 (step Sa1), and the paper leaves S are taken in. It is conveyed by the conveying unit 30. Immediately after the start of transportation by the transport unit 30, the detection unit 23 provided in the vicinity of the receiving port 11 detects the transport state of the paper sheets S (step Sa2). When the transport state detected by the detection unit 23 is a reject paper leaf in an abnormal transport state including double feed, skew, and near feed, the control unit 32 controls the paper leaf S. It is determined that there is a transport abnormality (step Sa3: NO), and the paper strips S are transported to the lower reject storage port 12 and stored (step Sa4) by controlling the transport unit 30 without counting.

他方、この紙葉類Sについて、検出部23で検出された搬送状態が、重送、斜行およびニアフィードのいずれでもなく正常搬送である場合、制御部32は、搬送異常なしと判定して(ステップSa3:YES)、この紙葉類Sを、識別部22の検出部23よりも下流側の識別本体部24で識別させる(ステップSa5)。この紙葉類Sが、識別本体部24の識別結果から、偽、損傷、テープ貼付、紫外線検査異常を含む識別異常のリジェクト紙葉類であると識別されると、制御部32は、この紙葉類Sを計数せずに、識別異常ありと判定し(ステップSa6:NO)、搬送部30を制御して、この紙葉類Sを上側リジェクト収容口13に搬送して収容させる(ステップSa7)。 On the other hand, regarding the paper sheets S, when the transport state detected by the detection unit 23 is normal transport without any of double feed, skew, and near feed, the control unit 32 determines that there is no transport abnormality. (Step Sa3: YES), the paper sheets S are identified by the identification main body unit 24 on the downstream side of the detection unit 23 of the identification unit 22 (step Sa5). When the paper sheets S are identified from the identification result of the identification main body unit 24 as rejected paper sheets having an identification abnormality including false, damaged, taped, and ultraviolet inspection abnormalities, the control unit 32 determines the paper. Without counting the leaves S, it is determined that there is an identification abnormality (step Sa6: NO), and the transport unit 30 is controlled to transport the paper leaves S to the upper reject storage port 13 for storage (step Sa7). ).

また、紙葉類Sが、識別本体部24で識別異常でないと識別されると、制御部32は、識別異常なしと判定する(ステップSa6:YES)。次に、この紙葉類Sが、その行き先となる計数後収容口14がないリジェクト紙葉類である場合、制御部32は、この紙葉類Sを計数せずに、行き先なしと判定し(ステップSa8:NO)、搬送部30を制御して、上側リジェクト収容口13に搬送して収容させる(ステップSa7)。識別異常でないと識別された紙葉類Sが、その行き先となる計数後収容口14がある場合、制御部32は、行き先ありと判定する(ステップSa8:YES)。次に、この紙葉類Sが、その行き先の計数後収容口14がフルで集積できないリジェクト紙葉類である場合、制御部32は、この紙葉類Sを計数せずに、フルであると判定し(ステップSa9:NO)、搬送部30を制御して、この紙葉類Sを下側リジェクト収容口12に搬送して収容させる(ステップSa4)。 Further, when the paper leaf S is identified by the identification main body unit 24 as not having an identification abnormality, the control unit 32 determines that there is no identification abnormality (step Sa6: YES). Next, when the paper leaves S are reject paper leaves that do not have the post-counting storage port 14 that is the destination, the control unit 32 determines that there is no destination without counting the paper leaves S. (Step Sa8: NO), the transport unit 30 is controlled to transport and accommodate the upper reject accommodating port 13 (step Sa7). When the paper leaf S identified as not having an identification abnormality has a post-counting storage port 14 as its destination, the control unit 32 determines that there is a destination (step Sa8: YES). Next, when the paper sheets S are reject paper sheets whose destinations are not counted and the storage port 14 is full and cannot be accumulated, the control unit 32 does not count the paper sheets S and is full. (Step Sa9: NO), the transport unit 30 is controlled to transport the paper sheets S to the lower reject storage port 12 and store them (step Sa4).

また、その行き先となる計数後収容口14があると識別された紙葉類Sが、その行き先となる計数後収容口14がフルでなく収容できる計数対象紙葉類であると識別されると、制御部32は、フルでないと判定して(ステップSa9:YES)、この紙葉類Sの種類、すなわちその金種の計数値を加算し、搬送部30を制御して、この紙葉類Sを対応する計数後収容口14に搬送して収容させる(ステップSa10)。 Further, when the paper leaf S S identified as having the post-counting storage port 14 which is the destination is identified as the counting target paper leaf which is not full and can be stored in the post-counting storage port 14 which is the destination. , The control unit 32 determines that it is not full (step Sa9: YES), adds the count value of the type of the paper leaf S, that is, the denomination thereof, and controls the transport unit 30 to control the paper leaf type. After counting, S is transported to the storage port 14 and stored (step Sa10).

以上により、計数後収容口14は、識別部22で計数対象紙葉類と識別されて計数された紙葉類Sを収容することになり、下側リジェクト収容口12および上側リジェクト収容口13は、識別部22でリジェクト紙葉類と識別された紙葉類Sをリジェクト要因別に分類して収容する。その際に、下側リジェクト収容口12には、識別部22で再度識別することで計数後収容口14に収容される可能性がある、重送の紙葉類Sと、斜行の紙葉類Sと、ニアフィードの紙葉類Sと、その行き先の計数後収容口14がフルで集積できないためにリジェクトされる紙葉類Sと、を収容することになる。また、上側リジェクト収容口13は、識別部22で再度識別しても計数後収容口14に収容される可能性がない、偽の紙葉類Sと、損傷の紙葉類Sと、テープ貼付の紙葉類Sと、紫外線検査異常の紙葉類Sと、紙葉類Sとしては正常であるが該当する条件の計数後収容口14がない紙葉類Sと、を収容する。 As described above, the post-counting storage port 14 will store the paper leaves S that have been identified and counted by the identification unit 22, and the lower reject storage port 12 and the upper reject storage port 13 will be stored. , Paper leaves S identified as rejected paper leaves by the identification unit 22 are classified and stored according to the reject factor. At that time, the lower reject storage port 12 contains double-feed paper sheets S and skewed paper leaves, which may be stored in the storage port 14 after counting by being identified again by the identification unit 22. Class S, near-feed paper leaf S, and paper leaf S that is rejected because the storage port 14 after counting the destination is full and cannot be accumulated will be stored. Further, the upper reject storage port 13 is not likely to be stored in the storage port 14 after counting even if it is identified again by the identification unit 22, the fake paper sheets S, the damaged paper sheets S, and the tape are attached. Paper sheets S, paper sheets S having an abnormal ultraviolet test, and paper sheets S that are normal as paper sheets S but do not have a storage port 14 after counting the applicable conditions are stored.

ステップSa4,Sa7,Sa10のそれぞれの後に、制御部32は、受入口11に紙葉類Sがあれば、受入口11が空でないと判定して(ステップSa11:NO)、ステップSa1に戻って、次の紙葉類Sを受入口11から紙葉類処理装置1の内部に取り込ませることになる。受入口11に紙葉類Sがなければ、受入口11が空であると判定する(ステップSa11:YES)。この状態では、受入口11にセットされた全ての紙葉類Sが、下側リジェクト収容口12、上側リジェクト収容口13および計数後収容口14のいずれかに収容されている。 After each of steps Sa4, Sa7, and Sa10, the control unit 32 determines that the inlet 11 is not empty if there is a paper leaf S in the inlet 11 (step Sa11: NO), and returns to step Sa1. , The next paper leaf S will be taken into the inside of the paper leaf processing device 1 from the receiving port 11. If there is no paper leaf S in the receiving port 11, it is determined that the receiving port 11 is empty (step Sa11: YES). In this state, all the paper sheets S set in the receiving port 11 are housed in any of the lower reject storage port 12, the upper reject storage port 13, and the post-counting storage port 14.

次に、下側リジェクト収容口12に収容している紙葉類Sがあれば、下側リジェクト収容口12が空でないと判定して(ステップSa12:NO)、下側リジェクト収容口12に収容している紙葉類Sを受入口11に投入するように指示する表示を、下側リジェクト収容口12に設けられた図示略の有無表示照明の点灯状態および操作表示部31への表示で報知する(ステップSa13)。言い換えれば、識別部22で再度識別することで計数後収容口14に収容される可能性がある紙葉類Sが下側リジェクト収容口12にある場合は、これを受入口11に投入するように操作者に報知する。具体的には、下側リジェクト収容口12に紙葉類Sが収容されることで点灯状態となった下側リジェクト収容口12の有無表示照明を点滅状態とする。それと共に、操作表示部31に、下側リジェクト収容口12の紙葉類Sの受入口11への戻し入れを促す旨の表示を表示させる。 Next, if there is a paper leaf S housed in the lower reject storage port 12, it is determined that the lower reject storage port 12 is not empty (step Sa12: NO), and the paper leaf S is housed in the lower reject storage port 12. A display instructing the paper sheets S to be thrown into the receiving port 11 is notified by the lighting state of the presence / absence display lighting (not shown) provided in the lower reject storage port 12 and the display on the operation display unit 31. (Step Sa13). In other words, if there is a paper leaf S in the lower reject storage port 12 that may be stored in the storage port 14 after counting by being identified again by the identification unit 22, it should be thrown into the receiving port 11. Notify the operator. Specifically, the presence / absence indicator lighting of the lower reject storage port 12 that has been turned on by accommodating the paper sheets S in the lower reject storage port 12 is set to the blinking state. At the same time, the operation display unit 31 is displayed to indicate that the lower reject storage port 12 is urged to be returned to the receiving port 11.

このような報知により、操作者が、下側リジェクト収容口12に収容している紙葉類Sを受入口11にセットして、操作表示部31に一の分類処理の再スタート操作を入力する。すると、制御部32は、受入口11に再投入された紙葉類Sについて再び図5に示すフローチャートに沿って制御を行う。これにより、下側リジェクト収容口12に収容していた紙葉類Sが再度識別部22で識別されることになり、搬送異常がなく(ステップSa3:YES)、識別異常もなく(ステップSa6:YES)、行き先があり(ステップSa8:YES)、行き先がフルでない(ステップSa9:YES)、と識別された紙葉類Sについては、その種類、すなわちその金種の計数値を加算し、搬送部30を制御して、この紙葉類Sを対応する計数後収容口14に搬送して収容させる。 By such a notification, the operator sets the paper sheets S housed in the lower reject storage port 12 in the receiving port 11, and inputs the restart operation of one classification process to the operation display unit 31. .. Then, the control unit 32 controls the paper sheets S reinserted into the receiving port 11 again according to the flowchart shown in FIG. As a result, the paper sheets S stored in the lower reject storage port 12 are identified again by the identification unit 22, and there is no transport abnormality (step Sa3: YES) and no identification abnormality (step Sa6: For paper sheets S identified as having a destination (step Sa8: YES) and not being full (step Sa9: YES), the type, that is, the count value of the denomination is added and transported. The unit 30 is controlled to transport the paper sheets S to the corresponding after-counting storage port 14 for storage.

下側リジェクト収容口12に収容している紙葉類Sがなければ、下側リジェクト収容口12が空であると判定して(ステップSa12:YES)、今回の一の分類処理を終了する。なお、再度識別部22で識別された後の紙葉類Sは、再び下側リジェクト収容口12に収容される可能性があるため、ステップSa13で報知画面を表示させている操作表示部31への操作入力によって一の分類処理を強制終了できるようになっている。 If there is no paper leaf S housed in the lower reject storage port 12, it is determined that the lower reject storage port 12 is empty (step Sa12: YES), and the current classification process is completed. Since the paper sheets S after being identified again by the identification unit 22 may be stored in the lower reject storage port 12 again, the operation display unit 31 displaying the notification screen in step Sa13 is reached. It is possible to forcibly terminate one classification process by inputting the operation of.

ここで、第1動作モードでの一の分類処理において、受入口11にセットされた紙葉類Sがすべて、下側リジェクト収容口12、上側リジェクト収容口13および計数後収容口14のいずれかに収容された状態で、下側リジェクト収容口12に収容された紙葉類Sが、リジェクト要因が斜行等の一枚のみである場合、この紙葉類Sは識別本体部24による識別が完了しているため、その後、同じ一の分類処理において受入口11から繰り出された紙葉類Sを、検出部23で搬送状態を検出して、正常搬送と判定すると、識別本体部24で再度識別することなく、この一枚のみの紙葉類Sに対応する金種の計数後収容口14に収容するようにしても良い。 Here, in one classification process in the first operation mode, all the paper sheets S set in the receiving port 11 are any one of the lower reject accommodating port 12, the upper reject accommodating port 13, and the post-counting accommodating port 14. If the paper leaf S housed in the lower reject storage port 12 has only one reject factor such as skew, the paper leaf S can be identified by the identification main body 24. Since it has been completed, after that, when the detection unit 23 detects the transport state of the paper sheets S fed out from the receiving port 11 in the same classification process and determines that the paper leaves S are normally transported, the identification main body unit 24 again. Without identification, the denominations corresponding to this one sheet of paper leaf S may be stored in the storage port 14 after counting.

また、第1動作モードにおいて、下側リジェクト収容口12および上側リジェクト収容口13へ収容する紙葉類Sを逆にしても良い。すなわち、上側リジェクト収容口13を、識別部22で再度識別することで計数後収容口14に収容される可能性があるリジェクト紙葉類と識別された紙葉類Sを収容するリジェクト仮収容口とし、下側リジェクト収容口12を、識別部22で再度識別しても計数後収容口14に収容される可能性がないリジェクト紙葉類と識別された紙葉類Sを収容するリジェクト決定収容口としても良い。 Further, in the first operation mode, the paper sheets S accommodated in the lower reject accommodating port 12 and the upper reject accommodating opening 13 may be reversed. That is, the upper reject storage port 13 is re-identified by the identification unit 22, and the reject temporary storage port for storing the paper leaves S identified as the reject paper leaves that may be stored in the storage port 14 after counting. Then, even if the lower reject storage port 12 is re-identified by the identification unit 22, there is no possibility that it will be stored in the storage port 14 after counting. Reject determination storage for storing the paper leaves S identified as reject paper leaves. You can use it as a mouth.

「第2動作モード」
第2動作モードでは、上側リジェクト収容口13に、カジノチケット(バウチャー)であるリジェクト紙葉類と識別された紙葉類Sを収容し、下側リジェクト収容口12に、カジノチケット以外のリジェクト紙葉類と識別された紙葉類Sを収容する。 "Second operation mode"
In the second operation mode, the upper reject storage port 13 accommodates the paper leaves S identified as the reject paper leaves that are the casino ticket (voucher), and the lower reject storage port 12 accommodates the reject paper other than the casino ticket. Contains paper leaves S identified as leaves.

第2動作モードでも、第1動作モードと同様、分類処理開始前に、各計数後収容口14に収容する計数対象紙葉類としての紙葉類Sの種類が設定されるようになっている。 In the second operation mode as well, as in the first operation mode, the type of paper leaf S as the counting target paper leaf to be stored in the storage port 14 after each counting is set before the start of the classification process. ..

第2動作モードでは、紙幣とカジノチケットとが混在した状態の紙葉類Sの中から、紙幣を金種別に計数しつつ分類しながら、カジノチケットも種類別に計数しつつ一纏めにして収容する。すなわち、第2動作モードは、紙幣を分類しつつ、紙幣とカジノチケットとを分離するモードとなる。 In the second operation mode, the banknotes are classified by denomination from the paper sheets S in which the banknotes and the casino tickets are mixed, and the casino tickets are also counted and stored together. That is, the second operation mode is a mode in which the banknotes and the casino ticket are separated while classifying the banknotes.

第2動作モードでは、受入口11に紙葉類Sが集積状態でセットされて操作表示部31に一の分類処理のスタート操作が入力されると、制御部32は、受入口11にセットされた紙葉類Sについて図6に示すフローチャートに沿って制御を行う。 In the second operation mode, when the paper sheets S are set in the receiving port 11 in an integrated state and the start operation of one classification process is input to the operation display unit 31, the control unit 32 is set in the receiving port 11. Control is performed on the paper sheets S according to the flowchart shown in FIG.

すなわち、受入口11にセットされた集積状態の紙葉類Sを取込部55で一枚分離して繰り出させ(ステップSa1)、この紙葉類Sを搬送部30で搬送させる。搬送部30での搬送開始直後に、受入口11の近傍に設けられた検出部23が、この紙葉類Sの搬送状態を検出する(ステップSa2)。この紙葉類Sについて、検出部23で検出された搬送状態が、重送、斜行およびニアフィードを含む異常搬送状態のリジェクト紙葉類である場合、制御部32は、この紙葉類Sを計数せずに、搬送異常有りと判定し(ステップSa3:NO)、搬送部30を制御して、この紙葉類Sを下側リジェクト収容口12に搬送して収容させる(ステップSa4)。 That is, one sheet of the accumulated paper sheets S set in the receiving port 11 is separated and fed out by the intake unit 55 (step Sa1), and the paper sheets S are conveyed by the conveying unit 30. Immediately after the start of transportation by the transport unit 30, the detection unit 23 provided in the vicinity of the receiving port 11 detects the transport state of the paper sheets S (step Sa2). When the transport state detected by the detection unit 23 is a reject paper leaf in an abnormal transport state including double feed, skew, and near feed, the control unit 32 controls the paper leaf S. It is determined that there is a transport abnormality (step Sa3: NO), and the paper strips S are transported to the lower reject storage port 12 and stored (step Sa4) by controlling the transport unit 30 without counting.

また、紙葉類Sが、検出部23で、重送、斜行およびニアフィードのいずれでもなく正常搬送であると判定されると、制御部32は、搬送異常なしと判定して(ステップSa3:YES)、この紙葉類Sを、識別部22の識別本体部24に識別させる(ステップSa5)。この紙葉類Sが、識別本体部24の識別結果から、偽、損傷、テープ貼付、紫外線検査異常を含む識別異常のリジェクト紙葉類であると識別されると、制御部32は、この紙葉類Sを計数せずに、識別異常ありと判定し(ステップSb1:NO)、搬送部30を制御して、この紙葉類Sを下側リジェクト収容口12に搬送して収容させる(ステップSa4)。ここで、第2動作モードでは、ステップSa5において、識別した紙葉類Sが予め登録されたカジノチケットであると識別されると、制御部32は、この紙葉類Sについては、識別異常なしと判定する。 Further, when the detection unit 23 determines that the paper sheets S are normally transported without any of double feed, skew, and near feed, the control unit 32 determines that there is no transport abnormality (step Sa3). : YES), the paper sheets S are identified by the identification main body unit 24 of the identification unit 22 (step Sa5). When the paper sheets S are identified from the identification result of the identification main body unit 24 as rejected paper sheets having an identification abnormality including false, damaged, taped, and ultraviolet inspection abnormalities, the control unit 32 determines the paper. Without counting the leaves S, it is determined that there is an identification abnormality (step Sb1: NO), the transport unit 30 is controlled, and the paper leaves S are transported to the lower reject storage port 12 and stored (step). Sa4). Here, in the second operation mode, when the identified paper leaf S is identified as a pre-registered casino ticket in step Sa5, the control unit 32 has no identification abnormality with respect to the paper leaf S. Is determined.

紙葉類Sが、識別本体部24で、識別異常でないと識別されると、制御部32は、識別異常なしと判定する(ステップSb1:YES)。次に、この紙葉類Sが、予め登録されたカジノチケットであると識別すると(ステップSb2:YES)、この紙葉類Sの種類の計数値を加算し、搬送部30を制御して、この紙葉類Sを上側リジェクト収容口13に搬送して収容させる(ステップSa7)。この紙葉類Sが、予め登録されたカジノチケットでないと識別すると(ステップSb2:NO)、制御部32は、この紙葉類Sが、その行き先となる計数後収容口14がないリジェクト紙葉類である場合、この紙葉類Sを計数せずに、行き先なしと判定し(ステップSb3:NO)、搬送部30を制御して、この紙葉類Sを下側リジェクト収容口12に搬送して収容させる(ステップSa4)。識別異常でなく、予め登録されたカジノチケットでないと識別された紙葉類Sが、その行き先となる計数後収容口14がある場合、制御部32は、行き先ありと判定する(ステップSb3:YES)。次に、この紙葉類Sが、その行き先の計数後収容口14がフルで集積できないリジェクト紙葉類である場合、制御部32は、この紙葉類Sを計数せずに、フルであると判定し(ステップSa9:NO)、搬送部30を制御して、この紙葉類Sを下側リジェクト収容口12に搬送して収容させる(ステップSa4)。 When the paper leaf S is identified by the identification main body unit 24 as not having an identification abnormality, the control unit 32 determines that there is no identification abnormality (step Sb1: YES). Next, when the paper leaf S is identified as a pre-registered casino ticket (step Sb2: YES), the count value of the type of the paper leaf S is added, and the transport unit 30 is controlled. The paper sheets S are transported to the upper reject storage port 13 and stored (step Sa7). When the paper leaf S is identified as not a pre-registered casino ticket (step Sb2: NO), the control unit 32 determines that the paper leaf S does not have a post-counting storage port 14 to which the paper leaf S is a destination. If it is a class, it is determined that there is no destination (step Sb3: NO) without counting the paper sheets S, and the transport unit 30 is controlled to transport the paper leaves S to the lower reject storage port 12. And contain it (step Sa4). If the paper leaf S S, which is not an identification abnormality and is identified as not a pre-registered casino ticket, has a post-counting storage port 14 as its destination, the control unit 32 determines that there is a destination (step Sb3: YES). ). Next, when the paper sheets S are reject paper sheets whose destinations are not counted and the storage port 14 is full and cannot be accumulated, the control unit 32 does not count the paper sheets S and is full. (Step Sa9: NO), the transport unit 30 is controlled to transport the paper sheets S to the lower reject storage port 12 and store them (step Sa4).

また、その行き先となる計数後収容口14があると識別された紙葉類Sが、その行き先となる計数後収容口14がフルでなく収容できる計数対象紙葉類であると、制御部32は、フルでないと判定して(ステップSa9:YES)、この紙葉類Sの種類、すなわちその金種の計数値を加算し、搬送部30を制御して、この紙葉類Sを対応する計数後収容口14に搬送して収容させる(ステップSa10)。 Further, if the paper leaf S S identified as having the post-counting storage port 14 as the destination is not full and the post-counting storage port 14 as the destination is not full and can be stored, the control unit 32 Determines that it is not full (step Sa9: YES), adds the count value of the type of the paper leaf S, that is, the denomination thereof, and controls the transport unit 30 to correspond to the paper leaf type S. After counting, it is transported to the storage port 14 and stored (step Sa10).

以上により、計数後収容口14は、識別部22で計数対象紙葉類と識別されて計数された紙葉類Sを収容することになり、下側リジェクト収容口12および上側リジェクト収容口13は、識別部22でリジェクト紙葉類と識別された紙葉類Sをリジェクト要因別に分類して収容する。その際に、上側リジェクト収容口13には、カジノチケットと識別された紙葉類Sを収容し、下側リジェクト収容口12には、カジノチケット以外のリジェクト紙葉類と識別された紙葉類Sを収容する。 As described above, the post-counting storage port 14 will store the paper leaves S that have been identified and counted by the identification unit 22, and the lower reject storage port 12 and the upper reject storage port 13 will be stored. , Paper leaves S identified as rejected paper leaves by the identification unit 22 are classified and stored according to the reject factor. At that time, the upper reject storage port 13 stores the paper leaves S identified as the casino ticket, and the lower reject storage port 12 stores the paper leaves identified as the reject paper leaves other than the casino ticket. Accommodates S.

次に、制御部32は、受入口11に紙葉類Sがあれば、受入口11が空でないと判定して(ステップSa11:NO)、ステップSa1に戻って、次の紙葉類Sを受入口11から内部に取り込ませることになる。受入口11に紙葉類Sがなければ、受入口11が空であると判定し(ステップSa11:YES)、下側リジェクト収容口12に収容している紙葉類Sがあれば、下側リジェクト収容口12が空でないと判定して(ステップSa12:NO)、下側リジェクト収容口12に収容している紙葉類Sを受入口11にセットするように促す表示を、下側リジェクト収容口12に設けられた図示略の有無表示照明の点灯状態および操作表示部31への表示で報知する(ステップSa13)。 Next, if there is a paper leaf S at the receiving port 11, the control unit 32 determines that the receiving port 11 is not empty (step Sa11: NO), returns to step Sa1, and performs the next paper sheet S. It will be taken into the inside from the reception port 11. If there is no paper leaf S in the reception port 11, it is determined that the reception port 11 is empty (step Sa11: YES), and if there is a paper leaf S housed in the lower reject storage port 12, the lower side It is determined that the reject storage port 12 is not empty (step Sa12: NO), and a display prompting the user to set the paper sheets S housed in the lower reject storage port 12 in the receiving port 11 is displayed in the lower reject storage port 12. Notification is given by the lighting state of the presence / absence display illumination provided on the port 12 and the display on the operation display unit 31 (step Sa13).

このような報知により、操作者が、下側リジェクト収容口12に収容している紙葉類Sを受入口11にセットして、操作表示部31に一の分類処理の再スタート操作を入力する。すると、制御部32は、受入口11に再投入された紙葉類Sについて再び図6に示すフローチャートに沿って制御を行う。これにより、下側リジェクト収容口12に収容していた紙葉類Sが再度識別部22で識別されることになり、搬送異常がなく(ステップSa3:YES)、識別異常もなく(ステップSb1:YES)、カジノチケットでなく(ステップSb2:NO)、行き先があり(ステップSb3:YES)、行き先がフルでない(ステップSa9:YES)、と識別された紙葉類Sについては、その種類、すなわちその金種の計数値を加算し、搬送部30を制御して、この紙葉類Sを対応する計数後収容口14に搬送して収容させる。 By such a notification, the operator sets the paper sheets S housed in the lower reject storage port 12 in the receiving port 11, and inputs the restart operation of one classification process to the operation display unit 31. .. Then, the control unit 32 controls the paper sheets S reinserted into the receiving port 11 again according to the flowchart shown in FIG. As a result, the paper sheets S stored in the lower reject storage port 12 are identified again by the identification unit 22, and there is no transport abnormality (step Sa3: YES) and no identification abnormality (step Sb1: YES), the type of paper leaf S identified as not a casino ticket (step Sb2: NO), having a destination (step Sb3: YES), and not full destination (step Sa9: YES), that is, The count values of the denominations are added, and the transport unit 30 is controlled to transport the paper sheets S to the corresponding post-counting storage port 14 for storage.

下側リジェクト収容口12に収容している紙葉類Sがなければ、下側リジェクト収容口12が空であると判定して(ステップSa12:YES)、今回の一の分類処理を終了する。 If there is no paper leaf S housed in the lower reject storage port 12, it is determined that the lower reject storage port 12 is empty (step Sa12: YES), and the current classification process is completed.

ここで、第2動作モードにおいて、下側リジェクト収容口12および上側リジェクト収容口13へ収容する紙葉類Sを逆にしても良い。すなわち、下側リジェクト収容口12に、カジノチケットと識別された紙葉類Sを収容し、上側リジェクト収容口13に、カジノチケット以外のリジェクト紙葉類と識別された紙葉類Sを収容するようにしても良い。 Here, in the second operation mode, the paper sheets S accommodated in the lower reject accommodating port 12 and the upper reject accommodating port 13 may be reversed. That is, the lower reject storage port 12 accommodates the paper leaves S identified as the casino ticket, and the upper reject storage port 13 accommodates the paper leaves S identified as the rejected paper leaves other than the casino ticket. You may do so.

また、第2動作モードにおいて、受入口11が空であると判定すると(ステップSa11:YES)、ステップSa12,Sa13は行わずに、上側リジェクト収容口13に収容している紙葉類Sがあれば、カジノチケットの金額や種類等の選別が必要であるか否かを操作表示部31に入力させ、カジノチケットの金額や種類等の選別が必要であると入力された場合、上側リジェクト収容口13および下側リジェクト収容口12を空にして、上側リジェクト収容口13に収容されていたカジノチケットを受入口11に再投入するように操作表示部31で報知し、その後、操作表示部31に再スタート操作が入力されると、受入口11に再投入されたカジノチケットを識別部22で識別してその金額や種類等により2つの上側リジェクト収容口13および下側リジェクト収容口12に分類して収容するようにしてもよい。 Further, in the second operation mode, when it is determined that the reception port 11 is empty (step Sa11: YES), the paper sheets S housed in the upper reject storage port 13 are not performed in steps Sa12 and Sa13. For example, if the operation display unit 31 is made to input whether or not it is necessary to select the amount and type of the casino ticket, and if it is input that the amount and type of the casino ticket need to be selected, the upper reject storage port The operation display unit 31 notifies the operation display unit 31 to empty the 13 and the lower reject storage port 12 and re-insert the casino ticket stored in the upper reject storage port 13 into the reception port 11. When the restart operation is input, the casino ticket re-inserted into the reception port 11 is identified by the identification unit 22 and classified into two upper reject storage ports 13 and a lower reject storage port 12 according to the amount, type, and the like. May be accommodated.

「第3動作モード」
第3動作モード(記番号識別モード)では、上側リジェクト収容口13に、紙幣の記番号が要因でリジェクト紙葉類と識別された紙葉類Sを収容し、下側リジェクト収容口12に、記番号が要因でリジェクト紙葉類と識別された紙葉類S以外のリジェクト紙葉類と識別された紙葉類Sを収容する。第3動作モードにおいても、紙幣を分類して計数後収容口14に収容させながら、記番号が要因でリジェクト紙葉類と識別された紙葉類Sを分離することができる。ここで、記番号が要因でリジェクト紙葉類と識別される紙葉類には、記番号が識別本体部24で読めない場合、記番号が2箇所印字されている場合に2箇所の番号が異なる場合、偽札として登録されている記番号を識別した場合等が含まれる。 "Third operation mode"
In the third operation mode (serial number identification mode), the upper reject storage port 13 accommodates the paper leaves S identified as rejected paper leaves due to the serial number of the bill, and the lower reject storage port 12 accommodates the paper leaves S. It houses the paper leaf S identified as the reject paper leaf other than the paper leaf S identified as the reject paper leaf due to the serial number. Also in the third operation mode, the paper sheets S identified as rejected paper leaves due to the serial number can be separated while the banknotes are sorted and stored in the storage port 14 after counting. Here, for paper leaves that are identified as rejected paper leaves due to the serial number, if the serial number cannot be read by the identification main body 24, or if the serial number is printed in two places, the two numbers are printed. If they are different, the case where the serial number registered as a counterfeit note is identified is included.

ここで、第3動作モードにおいて、下側リジェクト収容口12および上側リジェクト収容口13へ収容する紙葉類Sを逆にしても良い。すなわち、下側リジェクト収容口12に、紙幣の記番号が要因でリジェクト紙葉類と識別された紙葉類Sを収容し、上側リジェクト収容口13に、記番号が要因でリジェクト紙葉類と識別された紙葉類S以外のリジェクト紙葉類と識別された紙葉類Sを収容するようにしても良い。 Here, in the third operation mode, the paper sheets S accommodated in the lower reject accommodating port 12 and the upper reject accommodating port 13 may be reversed. That is, the lower reject storage port 12 accommodates the paper leaves S identified as rejected paper leaves due to the serial number of the banknote, and the upper reject storage port 13 accommodates the reject paper leaves due to the serial number. It is also possible to accommodate the paper leaf S identified as the reject paper leaf other than the identified paper leaf S.

また、第3動作モードにおいて、上側リジェクト収容口13に収容された、記番号が要因でリジェクト紙葉類と識別された紙葉類Sを受入口11に再投入するように報知し、受入口11に再投入されて、操作表示部31に再スタート操作が入力されると、いずれも識別部22で再度識別することで計数後収容口14に収容される可能性がある、記番号が読めない紙幣と識別された紙葉類Sおよび2箇所の番号が異なる紙幣と識別された紙葉類Sと(汚れ等で読取りに問題あり)を、上側リジェクト収容口13および下側リジェクト収容口12のうちの一方に収容し、識別部22で再度識別しても計数後収容口14に収容される可能性がない、偽札として検出された紙葉類Sを、上側リジェクト収容口13および下側リジェクト収容口12のうちの他方に収容するようにしてもよい。 Further, in the third operation mode, the paper leaf S accommodated in the upper reject storage port 13 and identified as the reject paper leaf due to the serial number is notified to be reinserted into the reception port 11, and the reception port is received. When the paper is reinserted into 11 and the restart operation is input to the operation display unit 31, the serial number may be stored in the storage port 14 after counting by identifying again by the identification unit 22. Paper sheets S identified as no banknotes and paper sheets S identified as banknotes with different numbers in two places (there is a problem in reading due to dirt, etc.) are placed in the upper reject storage port 13 and the lower reject storage port 12. Paper sheets S detected as fake bills, which are stored in one of the two and are not likely to be stored in the storage port 14 after counting even if they are identified again by the identification unit 22, are stored in the upper reject storage port 13 and the lower side. It may be accommodated in the other of the reject accommodating ports 12.

第1〜第3動作モードのいずれにおいても、下側リジェクト収容口12、上側リジェクト収容口13および複数の計数後収容口14のうちのいずれか一つがフル状態になると、制御部32は、図示略の有無表示照明を点滅状態に切り替えると共に、操作表示部31に、フル状態の収容口の紙葉類Sを抜き取るように指示する表示を表示させる。 In any of the first to third operation modes, when any one of the lower reject accommodating port 12, the upper reject accommodating port 13, and the plurality of post-counting accommodating ports 14 becomes full, the control unit 32 is shown. The presence / absence display of the abbreviation is switched to the blinking state, and the operation display unit 31 is displayed with a display instructing to remove the paper sheets S of the storage port in the full state.

第1〜第3動作モードの選択は、例えば、操作表示部31への操作入力で行われるようにしても良いが、受入口11から最初に繰り出されて識別部22で識別された紙葉類Sが紙幣の場合は、自動的に第1動作モードとし、受入口11から最初に繰り出されて識別部22で識別された紙葉類Sが登録されたカジノチケットの場合には、自動的に第2動作モードとし、第3動作モードのみ、操作表示部31への操作入力で選択するようにしても良い。 The selection of the first to third operation modes may be performed, for example, by inputting an operation to the operation display unit 31, but the paper sheets that are first drawn out from the reception port 11 and identified by the identification unit 22. If S is a banknote, the first operation mode is automatically set, and if the casino ticket is a casino ticket in which the paper sheets S first drawn out from the reception port 11 and identified by the identification unit 22 are registered. The second operation mode may be set, and only the third operation mode may be selected by the operation input to the operation display unit 31.

以上に述べた第1実施形態の紙葉類処理装置1によれば、識別部22でリジェクト紙葉類と識別された紙葉類Sをリジェクト要因別に分類して収容する複数の下側リジェクト収容口12および上側リジェクト収容口13を有するため、リジェクト紙葉類と識別された紙葉類Sをリジェクト要因によって分類し、特定のリジェクト要因とそれ以外のリジェクト要因の紙幣とに選別することができる。よって、リジェクト紙葉類と識別された紙葉類Sに対して行う、その後の処理の効率を向上させることができる。 According to the paper leaf processing apparatus 1 of the first embodiment described above, a plurality of lower reject housings that classify and store the paper leaves S identified as rejected paper leaves by the identification unit 22 according to the reject factor. Since it has a mouth 12 and an upper reject storage port 13, the paper sheets S identified as reject paper sheets can be classified according to the reject factor, and can be sorted into a specific reject factor and a banknote of another reject factor. .. Therefore, it is possible to improve the efficiency of the subsequent processing performed on the paper leaves S identified as the rejected paper leaves.

例えば、従来の紙幣類処理装置では、受入口に投入された紙葉類のうち、識別が不能な識別不能紙幣や重送等の受入不可紙幣が収容されるリジェクト収容口を一つ有しているが、リジェクト収容口に収容された紙幣のうち、リジェクト要因(例えば、重送、斜行、ニアフィード等)によっては、受入口に再投入し、再識別させることで受入可能になる場合がある。一方で、リジェクト要因(例えば、偽、損傷、テープ貼付、紫外線検査異常等)によっては、最初の識別時において、再識別してもリジェクト紙葉類と識別されることがないと決定される紙葉類もある。 For example, a conventional banknote processing device has one reject storage port for storing unidentifiable banknotes that cannot be identified and unacceptable banknotes such as double feeds among the paper sheets inserted into the receiving port. However, depending on the reject factors (for example, double feed, skew, near feed, etc.) among the banknotes stored in the reject storage port, it may be possible to accept them by reinserting them into the receiving port and reidentifying them. is there. On the other hand, depending on the reject factors (for example, false, damaged, taped, abnormal UV inspection, etc.), it is determined that the paper will not be identified as rejected paper leaves even if it is re-identified at the time of initial identification. There are also leaves.

このため、第1動作モードで、リジェクト仮収容口として設定された下側リジェクト収容口12に、リジェクト紙葉類と識別された紙葉類Sのうち、識別部22で再度識別することで計数後収容口14に収容される可能性があるリジェクト要因(例えば、重送、斜行、ニアフィード等)の紙葉類Sを収容し、リジェクト決定収容口として設定された上側リジェクト収容口13に、リジェクト紙葉類と識別された紙葉類Sのうち、識別部22で再度識別しても計数後収容口14に収容される可能性がないリジェクト要因(例えば、偽、損傷、テープ貼付、紫外線検査異常等)の紙葉類Sを収容する。これにより、下側リジェクト収容口12に収容された紙葉類Sのみを識別部22で再識別させれば、この再識別で計数対象紙葉類と識別された紙葉類Sを計数後収容口14に収容できる。よって、リジェクト紙葉類と識別された全ての紙葉類Sを再識別させる場合と比べて、再識別処理に要する時間を短縮できる。 Therefore, in the first operation mode, the lower reject storage port 12 set as the reject temporary storage port is counted by being re-identified by the identification unit 22 among the paper leaves S identified as rejected paper leaves. Paper leaves S of reject factors (for example, double feeding, skewing, near feed, etc.) that may be accommodated in the rear accommodating port 14 are accommodated, and the upper reject accommodating port 13 set as the reject determination accommodating port is used. Of the paper sheets S identified as rejected paper sheets, reject factors (for example, false, damaged, taped, etc.) that are not likely to be stored in the storage port 14 after counting even if they are re-identified by the identification unit 22. Accommodates paper sheets S (abnormal UV inspection, etc.). As a result, if only the paper leaves S housed in the lower reject storage port 12 are re-identified by the identification unit 22, the paper leaves S identified as the counting target paper leaves by this re-identification are stored after counting. Can be accommodated in mouth 14. Therefore, the time required for the re-identification process can be shortened as compared with the case where all the paper sheets S identified as the rejected paper sheets are re-identified.

また、識別部22で再度識別することで計数後収容口14に収容される可能性があるリジェクト要因の紙葉類Sを、下側リジェクト収容口12および上側リジェクト収容口13のうち、受入口11に近い下側リジェクト収容口12に収容するため、再セット時の受入口11への紙葉類Sの移動距離を短縮でき、再セットの作業性が良い。なお、識別部22で再度識別することで計数後収容口14に収容される可能性があるリジェクト要因の紙葉類Sを、下側リジェクト収容口12および上側リジェクト収容口13のうち、上側の上側リジェクト収容口13に収容することも可能である。この場合、識別部22で再度識別することで計数後収容口14に収容される可能性があるリジェクト要因の紙葉類Sの有無が容易に視認できることになる。 Further, the paper sheets S of the reject factor that may be stored in the storage port 14 after counting by being identified again by the identification unit 22 are received at the receiving port of the lower reject storage port 12 and the upper reject storage port 13. Since it is housed in the lower reject storage port 12 close to 11, the moving distance of the paper sheets S to the receiving port 11 at the time of resetting can be shortened, and the workability of resetting is good. It should be noted that the paper sheets S of the reject factor that may be accommodated in the accommodating opening 14 after counting by being re-identified by the identification unit 22 are placed on the upper side of the lower reject accommodating opening 12 and the upper reject accommodating opening 13. It can also be accommodated in the upper reject accommodating port 13. In this case, by re-identifying with the identification unit 22, the presence or absence of paper sheets S, which is a reject factor that may be stored in the storage port 14 after counting, can be easily visually recognized.

また、第2動作モードでは、カジノチケット収容口として設定された上側リジェクト収容口13に、リジェクト紙葉類と識別された紙葉類Sのうち、予め登録されたカジノチケットと識別された紙葉類Sを収容し、下側リジェクト収容口12に、リジェクト紙葉類と識別された紙葉類Sのうち、予め登録されたカジノチケットと識別された紙葉類S以外の紙葉類Sを収容することができる。したがって、予め登録されたカジノチケットを、他のリジェクト紙葉類と分離する処理に要する時間を短縮できる。 Further, in the second operation mode, the paper leaf identified as the pre-registered casino ticket among the paper leaves S identified as the reject paper leaves in the upper reject storage port 13 set as the casino ticket storage port. Class S is accommodated, and among the paper leaves S identified as rejected paper leaves, paper leaves S other than the paper leaves S identified as the pre-registered casino ticket are stored in the lower reject storage port 12. Can be accommodated. Therefore, the time required for the process of separating the pre-registered casino ticket from other rejected paper sheets can be shortened.

また、第1動作モードでは、リジェクト紙葉類と識別されて、リジェクト仮収容口として設定された下側リジェクト収容口12に収容された紙葉類Sが、リジェクト要因が斜行等の一枚のみである場合、その後、受入口11から繰り出された紙葉類Sを、検出部23で搬送状態を検出して、正常搬送と判定すると、識別本体部24で再度識別することなく、対応する計数後収容口14に収容するため、電力消費を抑制することができ、処理の高速化も図れる。勿論、識別本体部24で再度識別してその結果を無視しても良く、また識別本体部24を通らない別搬送路を設けて、この別搬送路で搬送して対応する計数後収容口14に収容するようにしても良い。 Further, in the first operation mode, the paper leaves S, which are identified as reject paper leaves and are housed in the lower reject storage port 12 set as the reject temporary storage port, have a rejection factor of skew or the like. After that, when the detection unit 23 detects the transport state of the paper sheets S fed out from the receiving port 11 and determines that the paper leaves S are normally transported, the identification main body unit 24 does not identify them again. Since it is stored in the storage port 14 after counting, power consumption can be suppressed and processing speed can be increased. Of course, the identification main body 24 may be used for identification again and the result may be ignored, and a separate transport path that does not pass through the identification main body 24 may be provided and transported by this separate transport path to accommodate the corresponding post-counting storage port 14. It may be accommodated in.

また、受入口11を、装置本体81から横方向に識別部22とは反対側に引き出すことで、識別部22と搬送部30(左方延出部21a)とを開放可能となる。よって、ジャム紙葉類の取り出しが容易となる。加えて、ジャム紙葉類の取り出しのために搬送部30を作動させる必要がなくなるため、搬送ルートの自由度を高め、紙葉類処理装置1の小型化を実現できる。 Further, by pulling out the receiving port 11 laterally from the device main body 81 to the side opposite to the identification unit 22, the identification unit 22 and the transport unit 30 (left extending unit 21a) can be opened. Therefore, it becomes easy to take out jam paper leaves. In addition, since it is not necessary to operate the transport unit 30 to take out the jammed paper leaves, the degree of freedom of the transport route can be increased and the paper leaf processing device 1 can be downsized.

<第2実施形態>
本発明に係る第2実施形態の紙葉類処理装置を、図7,図8を参照して第1実施形態との相違部分を中心に以下に説明する。 <Second Embodiment>
The paper leaf processing apparatus of the second embodiment according to the present invention will be described below with reference to FIGS. 7 and 8, focusing on the differences from the first embodiment.

第2実施形態においては、下側リジェクト収容口12および上側リジェクト収容口13のうち受入口11に近い下側リジェクト収容口12が、収容している紙葉類Sを最下部のものから一枚ずつ繰り出し可能となっている。また、下側リジェクト収容口12から繰り出された紙葉類Sを搬送部30とで識別部22に搬送する戻し搬送部101が設けられている。戻し搬送部101は、下側リジェクト収容口12の底部60から延出しており、ベース機内搬送構成部21の検出部23と識別本体部24との間に合流している。 In the second embodiment, of the lower reject storage port 12 and the upper reject storage port 13, the lower reject storage port 12 near the receiving port 11 stores one sheet of paper leaves S from the lowest one. It is possible to feed out one by one. In addition, a return transport unit 101 is provided for transporting the paper sheets S fed out from the lower reject storage port 12 to the identification unit 22 together with the transport unit 30. The return transport unit 101 extends from the bottom 60 of the lower reject storage port 12 and joins between the detection unit 23 of the base machine in-machine transport configuration unit 21 and the identification main body unit 24.

第2実施形態の下側リジェクト収容口12は、底部60の位置に、底部60上に集積された紙葉類Sの最下のものに当接してこれを戻し搬送部101側に蹴り出す蹴出ローラ102と、蹴出ローラ102で蹴り出された紙葉類Sを戻し搬送部101に繰り出す繰出ローラ103と、繰出ローラ103が繰り出す紙葉類Sを一枚ずつに分離する分離ローラ104とを有している。蹴出ローラ102と繰出ローラ103と分離ローラ104とが、下側リジェクト収容口12の紙葉類Sを一枚ずつ分離して繰り出す繰出部105を構成している。第2実施形態の下側リジェクト収容口12の底部60の上方には、制御部32に制御されて昇降するビルプレス108が設けられている。ビルプレス108は、底部60上に載置された紙葉類Sを底部60に向けて押圧する。 The lower reject accommodating port 12 of the second embodiment comes into contact with the bottom of the paper sheets S accumulated on the bottom 60 at the position of the bottom 60, returns it, and kicks it toward the transport unit 101 side. A feeding roller 102, a feeding roller 103 that feeds out the paper leaves S kicked out by the kicking roller 102 to the return transport unit 101, and a separating roller 104 that separates the paper leaves S that are fed out by the feeding roller 103 one by one. have. The kicking roller 102, the feeding roller 103, and the separating roller 104 form a feeding portion 105 that separates and feeds the paper sheets S of the lower reject accommodating port 12 one by one. Above the bottom 60 of the lower reject storage port 12 of the second embodiment, a building press 108 that is controlled by the control unit 32 to move up and down is provided. The bill press 108 presses the paper sheets S placed on the bottom 60 toward the bottom 60.

第2実施形態においては、識別部22が、第1実施形態の検出部23および識別本体部24に加えて、戻し搬送部101の下側リジェクト収容口12側の端部位置に設けられて、下側リジェクト収容口12が繰り出す紙葉類Sの搬送状態を検出する検出部110を有している。検出部110は検出部23と同様にして紙葉類Sの搬送状態を検出する。 In the second embodiment, the identification unit 22 is provided at the end position on the lower reject storage port 12 side of the return transport unit 101 in addition to the detection unit 23 and the identification main body unit 24 of the first embodiment. The lower reject accommodating port 12 has a detection unit 110 for detecting the transport state of the paper sheets S to be fed. The detection unit 110 detects the transport state of the paper sheets S in the same manner as the detection unit 23.

第2実施形態においても、第1実施形態の第1動作モードと同様、下側リジェクト収容口12を、リジェクト紙葉類と識別された紙葉類Sのうち、識別部22で再度識別することで計数後収容口14に収容される可能性がある紙葉類Sを収容するリジェクト仮収容口とし、上側リジェクト収容口13を、リジェクト紙葉類と識別された紙葉類Sのうち、識別部22で再度識別しても計数後収容口14に収容される可能性がない紙葉類Sを収容するリジェクト決定収容口とする。 In the second embodiment as well, as in the first operation mode of the first embodiment, the lower reject storage port 12 is re-identified by the identification unit 22 among the paper sheets S identified as rejected paper sheets. The upper reject storage port 13 is used as the reject temporary storage port for storing the paper leaves S that may be stored in the storage port 14 after counting, and the upper reject storage port 13 is identified among the paper leaves S identified as rejected paper leaves. The reject determination storage port is used to store the paper sheets S that are unlikely to be stored in the storage port 14 after counting even if they are identified again by the unit 22.

第2実施形態において、受入口11に紙葉類Sが集積状態でセットされて操作表示部31に一の分類処理のスタート操作が入力されると、制御部32は、受入口11にセットされた紙葉類Sについて図8に示すフローチャートに沿って制御を行う。 In the second embodiment, when the paper sheets S are set in the receiving port 11 in an integrated state and the start operation of one classification process is input to the operation display unit 31, the control unit 32 is set in the receiving port 11. Control is performed on the paper sheets S according to the flowchart shown in FIG.

すなわち、制御部32は、第1実施形態の第1動作モードと同様のステップSa1〜Sa11を行うことになり、ステップSa11において、受入口11に紙葉類Sがなくなって受入口11が空であると判定する(ステップSa11:YES)と、下側リジェクト収容口12に収容している紙葉類Sがあれば下側リジェクト収容口12が空でないと判定して(ステップSa12:NO)、下側リジェクト収容口12に収容している紙葉類Sを、自動的に繰出部105が戻し搬送部101に一枚繰り出して識別部22に向け再搬送する(ステップSc1)。これにより、下側リジェクト収容口12から繰り出された紙葉類Sが、検出部110で搬送状態が検出された後(ステップSa2)、再度識別本体部24で識別されることになり、その際に、検出部110で搬送異常がなく(ステップSa3:YES)、識別本体部24で識別異常もなく(ステップSa6:YES)、行き先があり(ステップSa8:YES)、行き先がフルでない(ステップSa9:YES)、と識別された紙葉類Sについては、その種類、すなわちその金種の計数値を加算し、搬送部30を制御して、この紙葉類Sを対応する計数後収容口14に搬送して収容させる(ステップSa10)。下側リジェクト収容口12に収容している紙葉類Sがなければ、下側リジェクト収容口12が空であると判定して(ステップSa12:YES)、今回の一の分類処理を終了する。なお、再度識別本体部24で識別された後の紙葉類Sは、再び下側リジェクト収容口12に収容される可能性があるため、一の分類処理において、所定回数ステップSc1が実行されるか、所定時間経過すると、一の分類処理を強制終了する。 That is, the control unit 32 performs steps Sa1 to Sa11 similar to the first operation mode of the first embodiment, and in step Sa11, the paper leaves S disappear at the reception port 11 and the reception port 11 is empty. If it is determined that there is (step Sa11: YES), it is determined that the lower reject storage port 12 is not empty if there is a paper leaf S housed in the lower reject storage port 12 (step Sa12: NO). The paper leaf S stored in the lower reject storage port 12 is automatically fed by the feeding unit 105 to the return transporting unit 101 and re-transported toward the identification unit 22 (step Sc1). As a result, the paper sheets S fed out from the lower reject storage port 12 are identified again by the identification main body unit 24 after the transport state is detected by the detection unit 110 (step Sa2). In addition, the detection unit 110 has no transport abnormality (step Sa3: YES), the identification main unit 24 has no identification abnormality (step Sa6: YES), there is a destination (step Sa8: YES), and the destination is not full (step Sa9). : YES) For the paper sheets S identified as, the count value of the type, that is, the denomination thereof is added, and the transport unit 30 is controlled to accommodate the paper leaves S in the corresponding post-counting storage port 14. (Step Sa10). If there is no paper leaf S housed in the lower reject storage port 12, it is determined that the lower reject storage port 12 is empty (step Sa12: YES), and the current classification process is completed. Since the paper sheets S after being identified again by the identification main body 24 may be accommodated in the lower reject accommodating opening 12 again, the step Sc1 is executed a predetermined number of times in one classification process. Or, when a predetermined time elapses, one classification process is forcibly terminated.

第2実施形態においては、受入口11にセットされた紙葉類Sがすべて、下側リジェクト収容口12、上側リジェクト収容口13および計数後収容口14のいずれかに収容された状態で、下側リジェクト収容口12に収容された紙葉類Sが、リジェクト要因が斜行等の一枚のみである場合、この紙葉類Sは識別本体部24による識別が完了しているため、その後、制御部32は、自動的に下側リジェクト収容口12から紙葉類Sを繰り出させ、この紙葉類Sを、検出部110で搬送状態を検出して、正常搬送と判定すると、識別本体部24で再度識別することなく、この一枚の紙葉類Sに対応する金種の計数後収容口14に収容する。 In the second embodiment, all the paper sheets S set in the receiving port 11 are housed in any of the lower reject storage port 12, the upper reject storage port 13, and the post-counting storage port 14. When the paper leaf S housed in the side reject storage port 12 has only one reject factor such as skew, since the identification of the paper leaf S has been completed by the identification main body 24, after that, The control unit 32 automatically feeds out the paper sheets S from the lower reject storage port 12, and when the detection unit 110 detects the transport state of the paper leaves S and determines that the paper leaves S are normally transported, the identification main body unit The denominations corresponding to this one sheet of paper S are stored in the storage port 14 after counting without being identified again in 24.

すなわち、第2実施形態では、受入口11に近い下側リジェクト収容部12に収容された紙葉類Sを再び識別本体部24へ導く戻し搬送路101を設け、この下側リジェクト収容部12に再識別により受入可能となる可能性のある紙葉類Sを収容し、この下側リジェクト収容部12の紙葉類Sを自動的に再識別する。 That is, in the second embodiment, the lower reject accommodating portion 12 is provided with a return transport path 101 that guides the paper sheets S accommodated in the lower reject accommodating portion 12 near the receiving port 11 to the identification main body portion 24 again. Paper sheets S that may be accepted by re-identification are stored, and the paper sheets S of the lower reject storage unit 12 are automatically re-identified.

以上に述べた第2実施形態の紙葉類処理装置1によれば、リジェクト紙葉類と識別された紙葉類Sのうち、識別部22で再度識別することで計数後収容口14に収容される可能性がある紙葉類Sを、収容している下側リジェクト収容口12が一枚ずつ繰り出し、戻し搬送部101が検出部110および識別本体部24を含む識別部22に搬送するため、下側リジェクト収容口12の紙葉類Sを自動的に再度識別することができる。よって、操作者の手作業による紙葉類Sの戻し操作が不要になるため、さらに効率的に紙幣処理が行うことが可能になる。 According to the paper leaf processing apparatus 1 of the second embodiment described above, among the paper leaves S identified as rejected paper leaves, the paper leaves S are identified again by the identification unit 22 and are stored in the storage port 14 after counting. The lower reject storage port 12 that stores the paper sheets S that may be stored is fed out one by one, and the return transport unit 101 transports the paper leaves S to the identification unit 22 including the detection unit 110 and the identification main body unit 24. , The paper sheets S of the lower reject storage port 12 can be automatically identified again. Therefore, it is not necessary for the operator to manually return the paper sheets S, so that the banknote processing can be performed more efficiently.

また、リジェクト紙葉類と識別されて、下側リジェクト収容口12に収容された紙葉類Sが、リジェクト要因が斜行等の一枚のみである場合、その後、下側リジェクト収容口12から繰り出された紙葉類Sを、検出部110で搬送状態を検出して、正常搬送と判定すると、識別本体部24で再度識別することなく、対応する計数後収容口14に収容するため、電力消費を抑制することができ、処理の高速化も図れる。勿論、識別本体部24で再度識別してその結果を無視しても良く、また識別本体部24を通らない別搬送路を設けて、この別搬送路で搬送して対応する計数後収容口14に収容するようにしても良い。 In addition, when the paper leaves S that are identified as rejected paper leaves and are stored in the lower reject storage port 12 have only one reject factor such as skew, then from the lower reject storage port 12 When the detection unit 110 detects the transport state of the unwound paper sheets S and determines that the paper leaves S are normally transported, the identification main unit 24 does not identify them again and stores them in the corresponding post-counting storage port 14. Consumption can be suppressed and processing speed can be increased. Of course, the identification main body 24 may be used for identification again and the result may be ignored, and a separate transport path that does not pass through the identification main body 24 may be provided and transported by this separate transport path to accommodate the corresponding post-counting storage port 14. It may be accommodated in.

なお、戻し搬送部101および繰出部105を設けるのではなく、下側リジェクト収容口12に収容された紙葉類Sを集積状態のまま受入口11へ移動させるリフトを設け、制御部32が、下側リジェクト収容口12に収容された紙葉類Sを、このリフトで受入口11へ移動させ、続けて、受入口11から一枚ずつ繰り出させるようにしても良い。 Instead of providing the return transport unit 101 and the feeding unit 105, a lift is provided to move the paper sheets S housed in the lower reject storage port 12 to the receiving port 11 in the accumulated state, and the control unit 32 Paper sheets S housed in the lower reject storage port 12 may be moved to the reception port 11 by this lift, and subsequently, may be fed out one by one from the reception port 11.

<第3実施形態>
本発明に係る第3実施形態の紙葉類処理装置を、図9を参照して第1実施形態との相違部分を中心に以下に説明する。 <Third Embodiment>
The paper leaf processing apparatus of the third embodiment according to the present invention will be described below with reference to FIG. 9, focusing on the differences from the first embodiment.

ベース機2には、複数の分類収容機3が処理機として連設可能となっており、また、複数の結束機121も連設可能となっている。第3実施形態の紙葉類処理装置1は、ベース機2に、第1実施形態と同様の分類収容機3が複数、具体的には3台連設されており、これらのベース機2とは反対側に、処理機としての複数、具体的には2台の結束機121が連設されて構成されている。第1実施形態と同様、3台の分類収容機3は、いずれも、連結搬送構成部27Aと分岐搬送構成部27Bとが独立して駆動可能となっている。 A plurality of classification and accommodating machines 3 can be connected to the base machine 2 as processing machines, and a plurality of binding machines 121 can also be connected to the base machine 2. In the paper leaf processing device 1 of the third embodiment, a plurality of classification and accommodating machines 3 similar to those of the first embodiment, specifically three units, are continuously provided in the base machine 2, and these base machines 2 and On the opposite side, a plurality of processing machines, specifically two binding machines 121, are connected in series. Similar to the first embodiment, in each of the three classification and accommodating machines 3, the connected transport configuration unit 27A and the branch transport configuration unit 27B can be driven independently.

結束機121は、結束機内搬送構成部122(処理機内搬送構成部)を有している。結束機内搬送構成部122は、結束機121の右側面の上部に開口し、結束機121の左側面に向け水平かつ直線状に延出して左側面に開口する連結搬送構成部122Aと、連結搬送構成部122Aの左側部分から下側に分岐する分岐搬送構成部122Bとを有している。連結搬送構成部122Aと分岐搬送構成部122Bとは、それぞれ個別の駆動モータを有しており、独立して駆動可能となっている。 The binding machine 121 has an in-binding machine transfer component 122 (in-processing machine transfer component). The in-binding machine transfer component 122 opens at the upper part of the right side surface of the binding machine 121, extends horizontally and linearly toward the left side surface of the binding machine 121, and opens on the left side surface. It has a branch transport configuration unit 122B that branches downward from the left side portion of the configuration unit 122A. The connected transport configuration unit 122A and the branch transport configuration unit 122B each have an individual drive motor and can be driven independently.

分岐搬送構成部122Bは、連結搬送構成部122Aから分岐して鉛直下方に延出した後、結束機121の右側面の方向に延出する下方延出部122Baと、下方延出部122Baから分岐して結束機121の右側面の方向に延出する分岐延出部122Bbと、を有している。 The branch transfer configuration unit 122B branches from the connection transfer configuration unit 122A and extends vertically downward, and then branches from the downward extension portion 122Ba extending in the direction of the right side surface of the binding machine 121 and the downward extension portion 122Ba. It has a branch extension portion 122Bb that extends in the direction of the right side surface of the binding machine 121.

結束機121は、下方延出部122Baの末端位置と、分岐延出部122Bbの末端位置とにそれぞれ接続される整列集積部125を有している。整列集積部125は、紙葉類Sを所定枚数(100枚)ずつ整列させて集積させる。結束機121は、整列集積部125の右方に、整列集積部125から右方に送り出された集積紙幣を載置させて鉛直下方に搬送する下降搬送部126を有している。また、結束機121は、整列集積部125の下方に、下降搬送部126で下降搬送され下降搬送部126から左方に送り出された集積紙幣を結束テープで結束することにより小束紙幣を作製する結束部127を有している。 The binding machine 121 has an aligned and integrated portion 125 connected to a terminal position of the downward extending portion 122Ba and a terminal position of the branch extending portion 122Bb, respectively. The alignment and accumulation unit 125 arranges and accumulates a predetermined number (100 sheets) of paper sheets S. The binding machine 121 has a descending transport unit 126 on the right side of the aligned stacking unit 125, in which the accumulated bills sent out from the aligned stacking unit 125 to the right are placed and transported vertically downward. Further, the binding machine 121 manufactures small bundled banknotes by binding the accumulated banknotes that are lowered by the descending transport unit 126 and sent out to the left from the descending transport unit 126 below the aligned accumulation unit 125 with a binding tape. It has a binding portion 127.

さらに、結束機121は、結束部127の下方に、結束部127で作製された小束紙幣を複数束収容可能な引き出し式の機外放出部128を有している。機外放出部128は、結束機121の前面から引き出し可能となっている。つまり、機外放出部128は、結束機121に押し込まれた状態で結束部127から小束紙幣を受け入れることになり、その後、結束機121の前面から引き出されることで、小束紙幣が機外へ取り出し可能となる。 Further, the binding machine 121 has a pull-out type external discharge unit 128 capable of accommodating a plurality of small bundled banknotes produced by the binding unit 127 below the binding unit 127. The out-of-machine discharge unit 128 can be pulled out from the front surface of the binding machine 121. That is, the out-of-machine discharge unit 128 receives the small bundled banknotes from the binding unit 127 while being pushed into the binding machine 121, and then is pulled out from the front surface of the binding machine 121, so that the small bundled banknotes are removed from the machine. Can be taken out to.

第3実施形態の紙葉類処理装置1は、ベース機2のベース機内搬送構成部21の左方延出部21cが、ベース機2に隣り合って連設される右から1台目の分類収容機3の分類収容機内搬送構成部27の連結搬送構成部27Aに接続されており、この右から1台目の分類収容機3の連結搬送構成部27Aが、この分類収容機3に隣り合って連設される右から2台目の分類収容機3の分類収容機内搬送構成部27の連結搬送構成部27Aに接続されていて、この右から2台目の分類収容機3の連結搬送構成部27Aが、この分類収容機3に隣り合って連設される右から3台目の分類収容機3の分類収容機内搬送構成部27の連結搬送構成部27Aに接続されている。 In the paper leaf processing device 1 of the third embodiment, the left extending portion 21c of the base machine in-machine transport component 21 of the base machine 2 is continuously provided adjacent to the base machine 2, and is classified as the first unit from the right. It is connected to the connected transport component 27A of the classified storage machine internal transport component 27 of the accommodating machine 3, and the connected transport component 27A of the first classified container 3 from the right is adjacent to the classified container 3. It is connected to the connected transport configuration unit 27A of the transport configuration unit 27 in the classification and storage machine of the second classification and storage machine 3 from the right, and the connection and transport configuration of the second classification and storage machine 3 from the right. The unit 27A is connected to the connected transport configuration unit 27A of the transport configuration unit 27 in the classification and storage machine of the third classification and storage machine 3 from the right, which is connected adjacent to the classification and storage machine 3.

また、この右から3台目の分類収容機3の連結搬送構成部27Aが、この分類収容機3に隣り合って連設される右から1台目の結束機121の結束機内搬送構成部122の連結搬送構成部122Aに接続されており、この右から1台目の結束機121の連結搬送構成部122Aが、この結束機121に隣り合って連設される右から2台目の結束機121の結束機内搬送構成部122の連結搬送構成部122Aに接続されている。 Further, the connecting transport component 27A of the third classification and accommodating machine 3 from the right is connected to the classification and accommodating machine 3 adjacent to the sorting and accommodating machine 3, and the first from the right binding unit 121 is connected to the binding and transporting component 122. The connection transport configuration unit 122A of the first binding machine 121 from the right is connected to the connection transport configuration unit 122A of the above, and the connection transport configuration unit 122A of the first binding machine 121 from the right is connected to the binding machine 121 adjacent to the binding machine 121. It is connected to the connection transport configuration unit 122A of the transport configuration unit 122 in the binding machine of 121.

ベース機2のベース機内搬送構成部21と、3台の分類収容機3のそれぞれの分類収容機内搬送構成部27と、2台の結束機121のそれぞれの結束機内搬送構成部122とが、第3実施形態の紙葉類処理装置1の搬送部30を構成している。 The base machine in-machine transfer component 21 of the base machine 2, the respective classification and storage machine transfer components 27 of the three classification and storage machines 3, and the respective binding machine in-machine transfer components 122 of the two binding machines 121 are the first. The transport unit 30 of the paper leaf processing device 1 of the third embodiment is configured.

ここで、例えば、右から1台目の分類収容機3と右から2台目の分類収容機3とを見てみると、右から1台目の分類収容機3が、搬送部30を構成する一の分類収容機内搬送構成部27と計数後収容口14とを有する一の処理機となり、右から2台目の分類収容機3が、搬送部30を構成する他の分類収容機内搬送構成部27を有する他の処理機となって、これらがベース機2に連設されている。この場合、右から1台目の分類収容機3の一の分類収容機内搬送構成部27は、隣り合うベース機2に設けられたベース機内搬送構成部21と、ベース機2とは反対側に隣り合って連設される右から2台目の分類収容機3に設けられた他の分類収容機内搬送構成部27とを結ぶ。 Here, for example, looking at the first classification and storage machine 3 from the right and the second classification and storage machine 3 from the right, the first classification and storage machine 3 from the right constitutes the transport unit 30. It becomes one processing machine having one classification and accommodating machine transport configuration unit 27 and a post-counting accommodation port 14, and the second classification and storage machine 3 from the right is another classification and storage machine transport configuration that constitutes the transport unit 30. Other processing machines having a unit 27 are connected to the base machine 2. In this case, the in-classifying and accommodating transport component 27 of one of the first classified and accommodating machines 3 from the right is located on the side opposite to the base in-flight transport configuration 21 provided in the adjacent base machines 2 and the base machine 2. It connects to another classification and storage machine in-carrying component 27 provided in the second classification and storage machine 3 from the right, which is connected adjacent to each other.

また、例えば、右から2台目の分類収容機3と右から3台目の分類収容機3とを見てみると、右から2台目の分類収容機3が、搬送部30を構成する一の分類収容機内搬送構成部27と計数後収容口14とを有する一の処理機となり、右から3台目の分類収容機3が、搬送部30を構成する他の分類収容機内搬送構成部27を有する他の処理機となって、これらが右から1台目の分類収容機3を介してベース機2に連設されている。この場合、右から2台目の分類収容機3の一の分類収容機内搬送構成部27は、ベース機2側に隣り合って連設される右から1台目の分類収容機3に設けられた他の分類収容機内搬送構成部27と、ベース機2とは反対側に隣り合って連設される右から3台目の分類収容機3に設けられた他の分類収容機内搬送構成部27とを結ぶ。 Further, for example, looking at the second classification and storage machine 3 from the right and the third classification and storage machine 3 from the right, the second classification and storage machine 3 from the right constitutes the transport unit 30. It becomes one processing machine having one classification and storage machine transport component 27 and post-counting storage port 14, and the third class and storage machine 3 from the right is another class and storage machine transport component that constitutes the transport section 30. Other processing machines having 27, which are connected to the base machine 2 via the first classification and accommodating machine 3 from the right. In this case, the in-classifying and accommodating machine transport component 27 of one of the second classified and accommodating machines 3 from the right is provided in the first classified and accommodating machine 3 from the right which is connected adjacent to the base machine 2 side. Another classification and storage machine transfer component 27 and another classification and storage machine transfer component 27 provided in the third classification and storage machine 3 from the right, which are connected to each other on the opposite side of the base machine 2 and adjacent to each other. Connect with.

また、例えば、右から3台目の分類収容機3と右から1台目の結束機121とを見てみると、右から3台目の分類収容機3が、搬送部30を構成する一の分類収容機内搬送構成部27と計数後収容口14とを有する一の処理機となり、右から1台目の結束機121が、搬送部30を構成する他の結束機内搬送構成部122を有する他の処理機となって、これらが右から1台目および2台目の分類収容機3を介してベース機2に連設されている。この場合、右から3台目の分類収容機3の一の分類収容機内搬送構成部27は、ベース機2側に隣り合って連設される右から2台目の分類収容機3に設けられた他の分類収容機内搬送構成部27と、ベース機2とは反対側に隣り合って連設される右から1台目の結束機121に設けられた結束機内搬送構成部122とを結ぶ。 Further, for example, looking at the third sorting and accommodating machine 3 from the right and the first binding and accommodating machine 121 from the right, the third sorting and accommodating machine 3 from the right constitutes the transport unit 30. The first processing machine 121 from the right has another in-binding machine transport component 122 that constitutes the transport section 30 and is a processing machine having a transport component 27 in the storage machine and a storage port 14 after counting. As other processing machines, these are connected to the base machine 2 via the first and second classification and accommodating machines 3 from the right. In this case, the in-classifying and accommodating machine transport component 27 of one of the third classified and accommodating machines 3 from the right is provided in the second classifying and accommodating machine 3 from the right which is connected adjacent to the base machine 2 side. In addition, the other classification and accommodating machine transport component 27 is connected to the binding machine transport component 122 provided in the first binding machine 121 from the right, which is connected adjacent to the base machine 2 on the opposite side.

第3実施形態の紙葉類処理装置1によれば、全ての分類収容機3は、連結搬送構成部27Aと分岐搬送構成部27Bとが独立して駆動可能であるため、例えば、右から1台目の分類収容機3において、分岐搬送構成部27Bに駆動モータの異常等が発生して駆動不可な状態となっても、連結搬送構成部27Aで、右から2台目の分類収容機3にベース機2から紙葉類Sを搬送可能となり、ベース機2と右から2台目の分類収容機3とで第1実施形態と同様の分類処理を行うことができる。 According to the paper leaf processing apparatus 1 of the third embodiment, in all the classification and accommodating machines 3, the connected transport configuration unit 27A and the branch transport configuration unit 27B can be driven independently, so that, for example, 1 from the right. In the second classification and accommodating machine 3, even if an abnormality of the drive motor occurs in the branch transfer component 27B and the drive cannot be performed, the connected transfer component 27A is the second class and accommodator 3 from the right. Paper sheets S can be transported from the base machine 2, and the base machine 2 and the second sorting and accommodating machine 3 from the right can perform the same classification processing as in the first embodiment.

また、例えば、ベース機2と右から1台目の分類収容機3とで一の分類処理中に、右から1台目の分類収容機3において、分岐搬送構成部27Bにジャム等が発生して紙葉類Sの搬送が不可な状態となっても、連結搬送構成部27Aで、右から2台目の分類収容機3にベース機2から紙葉類Sを搬送可能となり、ベース機2と右から2台目の分類収容機3とで一の分類処理を継続することができる。ベース機2と右から3台目の分類収容機3とで第1実施形態と同様の分類処理を行うこともできる。 Further, for example, during one classification process between the base machine 2 and the first classification / storage machine 3 from the right, a jam or the like occurs in the branch transfer component 27B in the first classification / storage machine 3 from the right. Even if the paper sheets S cannot be transported, the connected transport component 27A can transport the paper leaves S from the base machine 2 to the second classification and accommodating machine 3 from the right, and the base machine 2 And the second classification and accommodating machine 3 from the right can continue one classification process. It is also possible to perform the same classification processing as in the first embodiment on the base machine 2 and the third classification and accommodating machine 3 from the right.

また、全ての分類収容機3は連結搬送構成部27Aと分岐搬送構成部27Bとが独立して駆動可能であるため、例えば、2台の結束機121の少なくともいずれか一方で結束処理を行う場合に、全ての分類収容機3の分岐搬送構成部27Bを非駆動とし、連結搬送構成部27Aのみを駆動して紙葉類Sを搬送することができる。よって、電力消費を抑制することができ、騒音を低減することができる。 Further, in all the classification and accommodating machines 3, since the connecting transport configuration unit 27A and the branch transport configuration unit 27B can be driven independently, for example, when binding processing is performed on at least one of the two binding machines 121. In addition, the branch transport component 27B of all the classification and accommodating machines 3 is not driven, and only the connected transport component 27A can be driven to transport the paper sheets S. Therefore, power consumption can be suppressed and noise can be reduced.

また、連結搬送構成部27Aと分岐搬送構成部27Bとがそれぞれ個別の駆動モータを有しており、連結搬送構成部122Aと分岐搬送構成部122Bとがそれぞれ個別の駆動モータを有しているため、それぞれの駆動モータにかかる負荷を減らすことができるので、動力伝達部品が高耐久となり、騒音も抑えることができる。 Further, since the connected transport configuration unit 27A and the branch transport configuration unit 27B each have an individual drive motor, and the connected transport configuration unit 122A and the branch transport configuration unit 122B each have an individual drive motor. Since the load applied to each drive motor can be reduced, the power transmission component becomes highly durable and noise can be suppressed.

なお、これらの効果は、一つの駆動モータの動力をクラッチの切り替えで連結搬送構成部27Aと分岐搬送構成部27Bとに伝達して、連結搬送構成部27Aと分岐搬送構成部27Bとを独立して駆動可能とし、一つの駆動モータの動力をクラッチの切り替えで連結搬送構成部122Aと分岐搬送構成部122Bとに伝達して、連結搬送構成部122Aと分岐搬送構成部122Bとを独立して駆動可能としても奏することができる。 It should be noted that these effects transmit the power of one drive motor to the connected transport configuration unit 27A and the branch transport configuration unit 27B by switching the clutch, and the connected transport configuration unit 27A and the branch transport configuration unit 27B become independent. The power of one drive motor is transmitted to the connected transport configuration unit 122A and the branch transport configuration unit 122B by switching the clutch, and the connected transport configuration unit 122A and the branch transport configuration unit 122B are driven independently. It can be played even if it is possible.

また、連結搬送構成部27Aと分岐搬送構成部27Bとがそれぞれ個別の駆動モータを有しており、連結搬送構成部122Aと分岐搬送構成部122Bとがそれぞれ個別の駆動モータを有しているため、それぞれの駆動ユニットを別体化でき、ユニット交換が容易となる。 Further, since the connected transport configuration unit 27A and the branch transport configuration unit 27B each have an individual drive motor, and the connected transport configuration unit 122A and the branch transport configuration unit 122B each have an individual drive motor. , Each drive unit can be separated, and unit replacement becomes easy.

実施形態の第1の態様は、装置外に開口し、装置外から紙葉類がセットされると共にセットされた集積状態の紙葉類を一枚ずつ繰り出す受入口と、前記受入口から繰り出された紙葉類を搬送する搬送部と、前記搬送部で搬送中の紙葉類を識別しつつ計数する識別部と、前記識別部で計数対象紙葉類と識別されて計数された紙葉類を収容する計数後収容口と、前記識別部でリジェクト紙葉類と識別された紙葉類をリジェクト要因別に分類して収容する、リジェクト仮収容口とリジェクト決定収容口とを含む複数のリジェクト収容口と、前記識別部で再度識別することで前記計数後収容口に収容される可能性がある紙葉類を前記リジェクト仮収容口に収容させ、前記識別部で再度識別しても前記計数後収容口に収容される可能性がない紙葉類を前記リジェクト決定収容口に収容させる制御部とを有し、前記計数後収容口に収容される可能性がある紙葉類とは、前記識別部で搬送異常有りと判定されたリジェクト紙葉類と、前記計数後収容口がフルであると判定されたリジェクト紙葉類との少なくともいずれか一方を含むことを特徴とする。 The first aspect of the embodiment is an entrance that opens to the outside of the device, sets paper leaves from outside the device, and feeds out the set accumulated paper leaves one by one, and is fed out from the inlet. A transport unit that transports the paper leaves, an identification unit that counts while identifying the paper leaves being transported by the transport unit, and paper sheets that are identified and counted as the paper leaves to be counted by the identification unit. A plurality of reject accommodating ports including a reject temporary accommodating port and a reject determination accommodating port, which are used to classify and store the post-counting storage port for accommodating the paper sheets and the paper sheets identified as rejected paper sheets by the identification unit according to the reject factor. Even if the mouth and the paper sheets that may be stored in the storage port after counting by being re-identified by the identification unit are stored in the reject temporary storage port and re-identified by the identification unit, after the counting. The paper leaves that may be stored in the storage port after counting have a control unit that stores the paper leaves that are not likely to be stored in the storage port in the reject determination storage port. It is characterized by including at least one of rejected paper sheets determined to have a transport abnormality and rejected paper sheets determined to have a full storage port after counting.

上記第1の態様によれば、識別部でリジェクト紙葉類と識別された紙葉類をリジェクト要因別に分類して収容する複数のリジェクト収容口を有するため、リジェクト紙葉類と識別された紙葉類をリジェクト要因によって分類することができる。よって、リジェクト紙葉類と識別された紙葉類に対して行う、その後の処理の効率を向上させることができる。 According to the first aspect, the paper identified as rejected paper leaves has a plurality of reject storage ports for classifying and accommodating the paper leaves identified as rejected paper leaves by the identification unit. The leaves can be classified by the reject factor. Therefore, it is possible to improve the efficiency of the subsequent processing performed on the paper leaves identified as the rejected paper leaves.

また、リジェクト仮収容口に、リジェクト紙葉類と識別された紙葉類のうち、識別部で再度識別することで計数後収容口に収容される可能性がある紙葉類を収容し、リジェクト決定収容口に、リジェクト紙葉類と識別された紙葉類のうち、識別部で再度識別しても計数後収容口に収容される可能性がない紙葉類を収容するため、リジェクト仮収容口に収容された紙葉類のみを識別部で再識別させれば、この再識別で計数対象紙葉類と識別された紙葉類を計数後収容口に収容できる。よって、リジェクト紙葉類と識別された全ての紙葉類を再識別させる場合と比べて、再識別処理に要する時間を短縮できる。 In addition, among the paper leaves identified as rejected paper leaves, the paper leaves that may be stored in the storage port after counting by being identified again by the identification unit are stored in the reject temporary storage port and rejected. Temporary reject storage is used to store paper leaves that are identified as reject paper leaves and that are unlikely to be stored in the storage port after counting even if they are identified again by the identification unit. If only the paper leaves stored in the mouth are re-identified by the identification unit, the paper leaves identified as the counting target paper leaves by this re-identification can be stored in the storage opening after counting. Therefore, the time required for the re-identification process can be shortened as compared with the case of re-identifying all the paper sheets identified as the rejected paper sheets.

第2の態様は、上記第1の態様において、前記制御部は、前記リジェクト仮収容口に紙葉類が存在する場合に、前記リジェクト仮収容口に収容された紙葉類を前記受入口へセットするように促す旨を報知することを特徴とする。 In the second aspect, in the first aspect, when the paper leaves are present in the reject temporary storage port, the control unit sends the paper leaves stored in the reject temporary storage port to the receiving port. It is characterized in that it notifies that it is urged to set.

上記第2の態様によれば、リジェクト仮収容口に紙葉類が存在する場合には、リジェクト仮収容口に収容された紙葉類を受入口へセットするように促す旨が報知されるため、この報知により、操作者はリジェクト仮収容口に収容された紙葉類を受入口へ再投入することができる。
第3の態様は、上記第1または第2の態様において、前記制御部は、前記計数後収容口、前記リジェクト仮収容口および前記リジェクト決定収容口のうちいずれか一つがフル状態になると当該収容口の紙葉類を抜き取るように報知することを特徴とする。 According to the second aspect described above, when paper leaves are present in the reject temporary storage port, it is notified that the paper leaves stored in the reject temporary storage port are urged to be set in the receiving port. With this notification, the operator can re-insert the paper sheets stored in the reject temporary storage port into the reception port.
In the third aspect, in the first or second aspect, when any one of the post-counting storage port, the reject temporary storage port, and the reject determination storage port is in the full state, the control unit performs the storage. It is characterized by notifying the mouth to remove the paper leaves.

第4の態様は、上記第1乃至第3のいずれか一態様において、前記リジェクト仮収容口は、収容している紙葉類を一枚ずつ繰り出し可能であり、前記リジェクト仮収容口から繰り出された紙葉類を前記識別部に搬送する戻し搬送部が設けられていることを特徴とする。 In the fourth aspect, in any one of the first to third aspects, the reject temporary storage port can feed out the stored paper sheets one by one, and is fed out from the reject temporary storage port. It is characterized in that a return transport section for transporting the paper sheets to the identification section is provided.

上記第4の態様によれば、リジェクト紙葉類と識別された紙葉類のうち、識別部で再度識別することで計数後収容口に収容される可能性がある紙葉類を、収容しているリジェクト仮収容口が一枚ずつ繰り出し、戻し搬送部が識別部に搬送するため、リジェクト仮収容口の紙葉類を自動的に再度識別することができる。 According to the fourth aspect, among the paper leaves identified as rejected paper leaves, the paper leaves that may be stored in the storage port after counting by being re-identified by the identification unit are stored. Since the reject temporary storage ports are fed out one by one and the return transport unit transports the paper sheets to the identification unit, the paper sheets in the reject temporary storage port can be automatically identified again.

第5の態様は、上記第4の態様において、前記制御部は、前記リジェクト仮収容口に収容される紙葉類が存在しなくなるまで、前記リジェクト仮収容口に収容された紙葉類を前記戻し搬送部により前記識別部へ搬送させることを特徴とする。 In a fifth aspect, in the fourth aspect, the control unit keeps the paper leaves housed in the reject temporary storage port until there are no paper leaves housed in the reject temporary storage port. It is characterized in that it is transported to the identification unit by the return transport unit.

上記第5の態様によれば、リジェクト仮収容口に収容される紙葉類が存在しなくなるまで、リジェクト仮収容口に収容された紙葉類が戻し搬送部により識別部へ自動的に搬送されるため、操作者の手作業による紙葉類の戻し操作が不要になって、さらに効率的に紙幣処理を行うことが可能になる。 According to the fifth aspect, the paper sheets housed in the reject temporary storage port are automatically transported to the identification unit by the return transport unit until there are no paper leaves stored in the reject temporary storage port. Therefore, the manual operation of returning the paper sheets by the operator becomes unnecessary, and the bill processing can be performed more efficiently.

第6の態様は、上記第1乃至第5のいずれか一態様において、前記受入口と前記識別部とが横方向に並んで設けられており、前記受入口は、装置本体から前記横方向に前記識別部とは反対側に引き出し可能であり、前記受入口が前記装置本体から前記横方向に引き出された状態で、前記識別部と前記搬送部とを開放可能となっていることを特徴とする。 In the sixth aspect, in any one of the first to fifth aspects, the receiving port and the identifying portion are provided side by side in the horizontal direction, and the receiving port is provided in the horizontal direction from the main body of the apparatus. It is characterized in that it can be pulled out to the side opposite to the identification unit, and the identification unit and the transport unit can be opened in a state where the receiving port is pulled out from the device main body in the lateral direction. To do.

上記第6の態様によれば、受入口を、装置本体から横方向に識別部とは反対側に引き出すことで、識別部と、搬送部とを開放可能となる。よって、ジャム紙葉類の取り出しが容易となる。 According to the sixth aspect, the identification unit and the transport unit can be opened by pulling out the receiving port laterally from the main body of the device to the side opposite to the identification unit. Therefore, it becomes easy to take out jam paper leaves.

第7の態様は、上記第1乃至第6のいずれか一態様において、前記搬送部を構成するベース機内搬送構成部と前記受入口と前記識別部と前記リジェクト収容口とを有するベース機と、前記搬送部を構成する一の処理機内搬送構成部と前記計数後収容口とを有する一の処理機と、前記搬送部を構成する他の処理機内搬送構成部を有する他の処理機と、を有し、前記ベース機に前記一の処理機と前記他の処理機とが連設可能であり、前記一の処理機内搬送構成部は、隣り合う前記ベース機に設けられた前記ベース機内搬送構成部または前記ベース機側に隣り合う前記他の処理機に設けられた前記他の処理機内搬送構成部と、前記ベース機とは反対側に隣り合う前記他の処理機に設けられた前記他の処理機内搬送構成部とを結ぶ連結搬送構成部と、前記連結搬送構成部から分岐して前記計数後収容口に繋がる分岐搬送構成部と、を有しており、前記連結搬送構成部と前記分岐搬送構成部とが独立して駆動可能であることを特徴とする。 A seventh aspect is, in any one of the first to sixth aspects, a base machine having a base machine in-machine transport component constituting the transport unit, an inlet, an identification unit, and a reject storage port. One processing machine having one in-processing machine transport component constituting the transport section and the post-counting accommodating port, and another processing machine having another in-processing machine transport component constituting the transport section. The one processing machine and the other processing machine can be connected to the base machine in succession, and the in-processing machine transport component of the one processing machine is provided in the base machine adjacent to the base machine. The other processing machine internal transport component provided in the unit or the other processing machine adjacent to the base machine side, and the other processing machine provided in the other processing machine adjacent to the base machine side. It has a connected transport configuration unit that connects the transport configuration unit in the processing machine, and a branch transport configuration unit that branches from the connected transport configuration unit and connects to the accommodating port after counting, and has the connected transport configuration unit and the branch. It is characterized in that it can be driven independently of the transport component.

上記第7の態様によれば、一の処理機の連結搬送構成部と分岐搬送構成部とが独立して駆動可能であるため、例えば、一の処理機の連結搬送構成部を介して、この一の処理機に隣り合うベース機のベース機内搬送構成部またはベース機側に隣り合う他の処理機に設けられた他の処理機内搬送構成部から、この一の処理機のベース機とは反対側に隣り合う他の処理機に設けられた他の処理機内搬送構成部に紙葉類を搬送する際に、この一の処理機の計数後収容口に繋がる分岐搬送構成部を非駆動とすれば、電力消費を抑制することができる。また、この一の処理機の分岐搬送構成部が駆動不可な状態であっても、一の処理機の連結搬送構成部を介して、ベース機またはベース機側の他の処理機から、ベース機とは反対側の他の処理機に紙葉類を搬送することができる。 According to the seventh aspect, since the connected transfer component and the branch transfer component of one processor can be driven independently, for example, through the connected transfer component of one processor, this Opposite to the base machine of this one processor from the base machine transfer component of the base machine adjacent to one processor or another process machine transfer component provided in another processor adjacent to the base machine side. When transporting paper sheets to the transport components in another processor provided in another processor adjacent to the side, the branch transport component connected to the storage port after counting of this one processor is not driven. For example, power consumption can be suppressed. Further, even if the branch transport component of this one processor cannot be driven, the base machine or another processor on the base machine side can be used from the base machine via the connected transport component of the one processor. Paper leaves can be transported to another processing machine on the opposite side.

1 紙葉類処理装置
2 ベース機
3 分類収容機(処理機)
11 受入口
12 下側リジェクト収容口(リジェクト収容口,リジェクト仮収容口)
13 上側リジェクト収容口(リジェクト収容口,リジェクト決定収容口)
14 計数後収容口
21 ベース機内搬送構成部
22 識別部
23,110 検出部
24 識別本体部
27 分類収容機内搬送構成部(処理機内搬送構成部)
27A,122A 連結搬送構成部
27B,122B 分岐搬送構成部
30 搬送部
32 制御部
81 装置本体
101 戻し搬送部
121 結束機(処理機)
122 結束機内搬送構成部(処理機内搬送構成部)
S 紙葉類 1 Paper leaf processing equipment 2 Base machine 3 Classification and accommodating machine (processing machine)
11 Inlet 12 Lower reject accommodation (reject accommodation, reject temporary accommodation)
13 Upper reject storage port (reject storage port, reject determination storage port)
14 After counting storage port 21 Base in-machine transfer component 22 Identification unit 23,110 Detection unit 24 Identification main body 27 Classification In-machine transfer component (in-processing machine transfer component)
27A, 122A Connected transport configuration unit 27B, 122B Branch transport configuration unit 30 Transport unit 32 Control unit 81 Device body 101 Return transport unit 121 Binding machine (processing machine)
122 In-binding machine transfer component (in-processing machine transfer component)
S paper leaves

Claims (3)

紙葉類を受け入れる受入部と、前記受入部により受け入れられた紙葉類を識別する識別部と、前記識別部で受け入れ不可と識別された紙葉類を収容するリジェクト部とを有するベース機と、
前記ベース機に対して一方向に連設可能な処理機とを備え、
前記ベース機は、前記識別部で受け入れ可能と識別された全ての紙葉類を前記処理機へ搬送することを特徴とする紙葉類処理装置。 A base machine having a receiving unit for accepting paper sheets, an identification unit for identifying the paper sheets accepted by the receiving unit, and a reject unit for accommodating the paper sheets identified as unacceptable by the identification unit. ,
It is equipped with a processing machine that can be continuously installed in one direction with respect to the base machine.
The base machine is a paper leaf processing apparatus characterized in that all paper sheets identified as acceptable by the identification unit are conveyed to the processing machine. 前記処理機は、前記ベース機に連結可能な分類収容機であって、前記識別部で受け入れ可能と識別された紙葉類を収容する収容部が前記ベース機に近い側に配置されることを特徴とする請求項1記載の紙葉類処理装置。 The processing machine is a classification and storage machine that can be connected to the base machine, and the storage unit for accommodating the paper sheets identified as acceptable by the identification unit is arranged on the side close to the base machine. The paper leaf processing apparatus according to claim 1. 前記処理機は、前記ベース機または前記分類収容機に連結可能な結束機であることを特徴とする請求項2記載の紙葉類処理装置。 The paper leaf processing apparatus according to claim 2, wherein the processing machine is a binding machine that can be connected to the base machine or the classification and accommodating machine.
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JP2014112421A (en) * 2009-12-21 2014-06-19 Toshiba Corp Paper sheet processing device, and paper sheet processing method
JP2015056062A (en) * 2013-09-12 2015-03-23 株式会社東芝 Paper sheet processing system and method of processing paper sheet
JP2017054237A (en) * 2015-09-08 2017-03-16 株式会社東芝 Paper sheet processing device, and paper sheet processing system

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014112421A (en) * 2009-12-21 2014-06-19 Toshiba Corp Paper sheet processing device, and paper sheet processing method
JP2011198145A (en) * 2010-03-19 2011-10-06 Glory Ltd Device and method for processing bill
JP2012108817A (en) * 2010-11-19 2012-06-07 Hitachi Omron Terminal Solutions Corp Bill depositing and dispensing apparatus
JP2015056062A (en) * 2013-09-12 2015-03-23 株式会社東芝 Paper sheet processing system and method of processing paper sheet
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