JP2004115256A - Product box management device, product box management system and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a product box management device for managing a plurality of boxes installed at a plurality of locations, based on completely new idea never seen before. <P>SOLUTION: A computer 20 functions as a product box management device. The product box management device comprises storing means 23 for storing a product rotation schedule which defines the rotation of product arrangement for a plurality of periods, and a visiting schedule which defines at least the order a sales person visits the plurality of locations, and preparing means 21 for preparing a product arrangement instruction that instructs the sales person to arrange a scheduled type and a scheduled number of products in the product box, based on the product rotation schedule, and the visiting schedule. <P>COPYRIGHT: (C)2004,JPO

Description

【００３９】
商品ローテーション計画は、通常、販売センターの責任者（センター長）によって作成される。商品ローテーション計画は、販売センターにおいて独自に作成されてもよいし、本部から本部計画をダウンロードし、その本部計画の一部を修正することによって作成されてもよい。
４．訪問計画
販売員３２は、自分の販売担当エリアを持っており、その販売担当エリア内の複数の場所（例えば、１２０か所の職場）に設置されている商品ボックスを担当する。
【００４０】
訪問計画は、原則として、販売員３２が担当する複数の場所を週１回訪問することができるように販売員３２ごとに作成される。例えば、販売員３２が、自分の販売担当エリア内の第１番目から第２４番目までの場所を月曜日に訪問し、第２５番目から第４８番目までの場所を火曜日に訪問し、第４９番目から第７２番目までの場所を水曜日に訪問し、第７３番目から第９６番目までの場所を木曜日に訪問し、第９７番目から第１２０番目までの場所を金曜日に訪問するように訪問計画は作成される。なお、訪問計画の作成にあたって、顧客企業の休日、販売センターの休日、販売員３２の休日などが考慮されるのはいうまでもない。
【００４１】
また、訪問計画は、複数の商品ボックスが設置されている複数の場所を販売員３２が訪問する順序を少なくとも定義するように作成される。例えば、複数の場所を訪問する順序は、原則として、販売員３２がその日に訪問すべき場所を最短ルートでまわることができるように決定される。このような最短ルートの決定は、例えば、市販の行動計画プログラムを利用して行うことができる。
【００４２】
訪問計画は、通常、販売センターの責任者（センター長）によって作成される。担当者の変更、販売担当エリアの変更、訪問ルートの変更、休日の変更などもセンター長によって必要に応じて行われる。
５．コンピュータおよび端末装置の構成
図５Ａは、販売センターに設置されているコンピュータ２０の構成例を示す。
【００４３】
コンピュータ２０は、ＣＰＵ（中央処理装置）２１と、主記憶２２と、ハードディスク装置（ＨＤＤ）などのメモリ装置２３と、入力インタフェース部２４と、出力インタフェース部２５と、端末装置インタフェース部２６と、ネットワークインタフェース部２７とを含む。これらの構成要素２１〜２７は、例えば、バス２８を介して互いに接続されている。コンピュータ２０は、例えば、パーソナルコンピュータであり得る。
【００４４】
メモリ装置２３には、商品ローテーション計画と、訪問計画と、商品ボックスを管理する処理を表現するプログラム（以下、「商品ボックス管理プログラム」という）と、その他の各種のプログラムとが格納されている。あるいは、これらのデータやプログラムは、フレキシブルディスク、ＣＤ−ＲＯＭ、ＤＶＤ−ＲＯＭなどの任意のタイプのコンピュータ読み取り可能な記録媒体に記録され得る。そのような記録媒体に記録されたデータやプログラムは、入力装置（例えば、ディスクドライブ）を介してメモリ装置２３にロードされ得る。
【００４５】
ＣＰＵ２１は、メモリ装置２３に格納されている商品ボックス管理プログラムを実行する。ＣＰＵ２１が商品ボックス管理プログラムを実行することによって、コンピュータ２０は、複数の場所に設置された複数の商品ボックスを管理する商品ボックス管理装置として機能する。この場合には、コンピュータシステム１は、コンピュータ（商品ボックス管理装置）２０と端末装置３０とを備えた商品ボックス管理システムとして機能する。
【００４６】
商品ボックス管理プログラムの一部またはデータの一部は、必要に応じて主記憶２２に移される。ＣＰＵ２１は、主記憶２２に高速にアクセスすることが可能である。
【００４７】
入力インタフェース部２４には、キーボード２４ａ、マウス２４ｂなどの入力機器が接続される。
【００４８】
出力インタフェース部２５には、ディスプレイ２５ａ、プリンタ２５ｂなどの出力機器が接続される。
【００４９】
端末装置インタフェース部２６は、端末装置３０との通信を行うために使用される。コンピュータ２０と端末装置３０との間の通信の態様は問わない。例えば、コンピュータ２０と端末装置３０との間の通信は無線通信であってもよいし、有線通信であってもよい。
【００５０】
ネットワークインタフェース部２７は、コンピュータ１０との通信を行うために使用される。コンピュータ２０とコンピュータ１０との間の通信の態様は問わない。例えば、コンピュータ２０とコンピュータ１０との間の通信は無線通信であってもよいし、回線１２を介した有線通信であってもよい。例えば、回線１２は、公衆回線であってもよいし専用回線であってもよい。
【００５１】
図５Ｂは、販売員３２によって携帯される端末装置３０の構成例を示す。
【００５２】
端末装置３０は、ＣＰＵ３１と、ランダムアクセスメモリ（ＲＡＭ）３２と、リードオンリーメモリ（ＲＯＭ）３３と、コンピュータインタフェース部３４と、表示部３５とを含む。これらの構成要素３１〜３５は、例えば、バス３６を介して互いに接続されている。端末装置３０は、持ち運びが便利なように小型軽量のモバイル機能付き情報処理端末（例えば、ＰＤＡ）であることが好ましい。
【００５３】
ＲＯＭ３３には、コンピュータ２０との通信や、販売員３２からの入力を制御するための制御プログラムが予め格納されている。ＣＰＵ３１は、その制御プログラムを実行する。
【００５４】
コンピュータインタフェース部３４は、コンピュータ２０との通信を行うために使用される。ＲＡＭ３２は、制御プログラムの実行に必要なパラメータやデータを一時的に格納するために使用される。
【００５５】
表示部３５は、コンピュータ２０から送信されたデータや、ＣＰＵ３１による処理結果を表示するために使用される。表示部３５は、例えば、液晶ディスプレイ（ＬＣＤ）である。
【００５６】
なお、図５Ａに示される構成はあくまでコンピュータ２０の構成の一例であり、図５Ｂに示される構成はあくまで端末装置３０の構成の一例である。出願人は、コンピュータ２０および端末装置３０の構成を図５Ａおよび図５Ｂに示される構成に限定することを意図していない。コンピュータ２０および端末装置３０は、それらと同等の機能を実現する限り、任意の構成を有し得る。
６．商品ボックス管理プログラム
商品ボックス管理プログラムは、複数の場所に設置された複数の商品ボックスを管理するために必要な機能を提供する。商品ボックス管理プログラムは、例えば、商品ローテーション計画を作成・編集するプログラム、訪問計画を作成・編集するプログラム、商品配置指示を作成するプログラム、商品の在庫を管理するプログラム、商品の売り上げを管理するプログラムを含む。
【００５７】
商品ローテーション計画を作成・編集するプログラムは、新たな商品ローテーション計画を作成しそれをメモリ装置２３に格納する機能と、メモリ装置２３に格納されている商品ローテーション計画を読み出しそれを編集する機能とを提供する。当業者であれば、商品ローテーション計画のデータ構造に合わせてこのようなプログラムを設計することができる。
【００５８】
図６は、商品ローテーション計画のデータ構造の一例を示す。図６に示される商品ローテーション計画は、ある販売センターにおける１年間の商品ローテーション計画の一部（２００２年の第１１週から第１７週までの商品ローテーション計画）を示す。
【００５９】
図６に示される例では、商品ローテーション計画は、１週間単位に３つの商品配置パターン（商品配置パターンＡ、商品配置パターンＢ、商品配置パターンＣ）を定義する。３つの商品配置パターンのそれぞれは、予め計画された種類の商品を予め計画された数だけ配置することを示す。例えば、参照番号６２によって示される列は、２００２年３月１１日から始まる１週間（すなわち、２００２年の第１１週）について、商品配置パターンＡとして３個の商品ａと３個の商品ｆとを少なくとも配置し、商品配置パターンＢとして３個の商品ｂと３個の商品ｇとを少なくとも配置し、商品配置パターンＣとして３個の商品ｃと３個の商品ｈとを少なくとも配置することを示す。
【００６０】
商品配置パターンＡの商品配置数、商品配置パターンＢの商品配置数および商品配置パターンＣの商品配置数は一定（例えば、２７個）であることが好ましい。
【００６１】
参照番号６１によって示される行は、２００２年３月１１日から始まる１週間（すなわち、２００２年の第１１週）から２００２年４月２２日から始まる１週間（すなわち、２００２年の第１７週）にかけて商品ａの配置が商品配置パターンＡ→商品配置パターンＢ→商品配置パターンＣの順にローテーションされていくことを示す。この商品ローテーションの態様は、第３章「商品ローテーション計画」で述べた商品ローテーションの態様と同一である。
【００６２】
なお、商品ボックスが設置されている場所には、複数の商品配置パターンのうちのいずれか１つが予め割り当てられているものとする。例えば、グループＡの顧客企業における商品ボックスの設置場所には商品配置パターンＡが割り当てられ、グループＢの顧客企業における商品ボックスの設置場所には商品配置パターンＢが割り当てられ、グループＣの顧客企業における商品ボックスの設置場所には商品配置パターンＣが割り当てられる。
【００６３】
なお、図６に示される例では、１週間単位に３つの商品配置パターンが定義された。しかし、商品配置パターンが定義される期間は１週間単位に限定されない。商品配置パターンが定義される期間は任意の長さを有する期間を単位として設定され得る。また、１つの単位期間内に定義される商品配置パターンの数も３に限定されない。１つの単位期間内に定義される商品配置パターンの数は２以上の任意の整数であり得る。
【００６４】
訪問計画を作成・編集するプログラムは、新たな訪問計画を作成しそれをメモリ装置２３に格納する機能と、メモリ装置２３に格納されている訪問計画を読み出しそれを編集する機能とを提供する。当業者であれば、訪問計画のデータ構造に合わせてこのようなプログラムを設計することができる。
【００６５】
図７は、訪問計画のデータ構造の一例を示す。図７に示される訪問計画は、ある販売センターにおけるある１人の販売員３２の訪問計画の一部（２００２年３月１１日から３月２０日までの訪問計画）を示す。
【００６６】
図７に示される例では、訪問計画は、商品ボックスが設置されている場所のうちその日に訪問すべき場所と、その場所を訪問する順序とを１日単位に定義する。図７において、”１”は、商品ボックスが設置されている場所のうちその日に訪問すべき場所を示す。その場所を訪問する順序は、紙面の上から下に向かう方向であるとする。例えば、参照番号７１によって示される列は、２００２年３月１１日（月曜日）に「○○商事１課」→「○○商事２課」→「△△生命」→「××生命」→「○△コンピュータ」→「○×物産」の順に商品ボックスが設置されている場所を訪問することを示す。
【００６７】
商品ボックスが設置されている場所には、商品配置パターンＡ、商品配置パターンＢ、商品配置パターンＣのうちのいずれか１つが予め割り当てられている。図７に示される例では、商品配置パターンＡが割り当てられた２か所を訪問した後、商品配置パターンＢが割り当てられた２か所を訪問し、その後、商品配置パターンＣが割り当てられた２か所を訪問するようにスケジュールされている。
【００６８】
商品ボックスが設置されている場所を訪問する順序は、一般に、商品配置パターンＡが割り当てられた場所→商品配置パターンＢが割り当てられた場所→商品配置パターンＣが割り当てられた場所の順であることが好ましい。すなわち、訪問順序のパターンとしては、Ａ、Ａ、Ａ、・・・Ａ、Ｂ、Ｂ、Ｂ、・・・Ｂ、Ｃ、Ｃ、Ｃ、・・・Ｃとなる。このような訪問順序のパターンが好ましい理由は、商品配置パターンＡが割り当てられた場所から回収した商品を商品配置パターンＢが割り当てられた場所に配置することが可能になり、商品配置パターンＢが割り当てられた場所から回収した商品を商品配置パターンＣが割り当てられた場所に配置することが可能になるからである。これにより、販売センターの倉庫からワゴン３４に持ち出す商品の種類または商品の数を低減することができる。なお、訪問順序のパターンは、Ａ、Ａ、Ａ、・・・Ａパターンの一部にＢを組み込み、Ｂ、Ｂ、Ｂ、・・・Ｂパターンの一部にＣを組み込んだものでもよい（例えば、Ａ、Ａ、Ｂ、Ａ、・・・Ａ、Ｂ、Ｂ、Ｃ、Ｂ・・・Ｂ、Ｃ、Ｃ、Ｃ、・・・Ｃという訪問順序のパターン）。
【００６９】
なお、図７に示される例では、２００２年３月１１日（月曜日）に訪問する商品ボックスの設置場所の数は６である。しかし、１日単位に訪問すべき商品ボックスの設置場所の数は６に限定されない。１日単位に訪問すべき商品ボックスの設置場所の数は１以上の任意の整数であり得る。ただし、１日単位に訪問すべき商品ボックスの設置場所の数は、販売員３２が自分の販売担当エリア内の顧客企業を１週間（または２週間）に少なくとも１回は訪問することができるように設定されることが好ましい。
【００７０】
図８は、予め計画された種類の商品を予め計画された数だけ商品ボックスに配置することを販売員３２に指示する商品配置指示を作成するプログラム（以下、「商品配置指示プログラム」という）の手順の一例を示す。商品配置指示プログラムは、メモリ装置２３に格納されており、ＣＰＵ２１によって実行される。以下、商品配置指示プログラムの手順をステップごとに説明する。
【００７１】
ステップＳ１：ＣＰＵ２１は、メモリ装置２３に格納されている訪問計画から、指定された日に対応するデータを参照する。そのデータは、その指定された日に販売員３２が訪問すべき商品ボックスの設置場所を示す。
【００７２】
ステップＳ２：ＣＰＵ２１は、変数ｉの値を初期化する（ｉ＝１）。ここで、変数ｉは、その指定された日に販売員３２がｉ番目に訪問すべき商品ボックスの設置場所（以下、「ｉ番目の設置場所」という）を示す。
【００７３】
ステップＳ３：ＣＰＵ２１は、ｉ番目の設置場所に割り当てられている商品配置パターンを参照する。
【００７４】
ｉ番目の設置場所に割り当てられている商品配置パターンが商品配置パターンＡである場合（ステップＳ４で「Ｙｅｓ」の場合）には、処理はステップＳ５に進む。同様に、ｉ番目の設置場所に割り当てられている商品配置パターンが商品配置パターンＢである場合（ステップＳ６で「Ｙｅｓ」の場合）には、処理はステップＳ７に進み、ｉ番目の設置場所に割り当てられている商品配置パターンが商品配置パターンＣである場合（ステップＳ８で「Ｙｅｓ」の場合）には、処理はステップＳ９に進む。
【００７５】
ステップＳ５：ＣＰＵ２１は、メモリ装置２３に格納されている商品ローテーション計画から、指定された日を含む週に対応する商品配置パターンＡのデータを参照する。そのデータは、商品配置パターンＡとしてどの商品を何個配置するかを示す。
【００７６】
ステップＳ７：ＣＰＵ２１は、メモリ装置２３に格納されている商品ローテーション計画から、指定された日を含む週に対応する商品配置パターンＢのデータを参照する。そのデータは、商品配置パターンＢとしてどの商品を何個配置するかを示す。
【００７７】
ステップＳ９：ＣＰＵ２１は、メモリ装置２３に格納されている商品ローテーション計画から、指定された日を含む週に対応する商品配置パターンＣのデータを参照する。そのデータは、商品配置パターンＣとしてどの商品を何個配置するかを示す。
【００７８】
ステップＳ１０：ＣＰＵ２１は、商品ローテーション計画から参照されたデータに基づいて、ｉ番目の設置場所に対応する商品配置指示を作成する。
【００７９】
このように、ステップＳ４〜Ｓ９において、ＣＰＵ２１は、商品ボックスが設置されている場所に割り当てられている商品配置パターンに従って、その商品ボックスにどの商品を何個配置するか（すなわち、その商品ボックスに配置すべき商品の種類および個数）を決定し、ステップＳ１０において、ＣＰＵ２１は、その決定結果に基づいて商品配置指示を作成する。
【００８０】
ステップＳ１１：ＣＰＵ２１は、次の設置場所があるか否かを判定する。例えば、指定された日に訪問すべき設置場所の数がＮ（Ｎは１以上の整数）である場合には、この判定は、ｉ＜Ｎが成立するか否かを判定することによって行われる。ステップＳ１１で「Ｙｅｓ」の場合には、変数ｉの値を１だけインクリメントし（ステップＳ１２）、処理はステップＳ３に戻る。ステップＳ１１で「Ｎｏ」の場合には、処理は終了する。
【００８１】
このように、商品配置指示プログラムに従ってＣＰＵ２１を動作させることにより、ＣＰＵ２１は、商品ローテーション計画と訪問計画とに基づいて、予め計画された種類の商品を予め計画された数だけ商品ボックスに配置することを販売員３２に指示する商品配置指示を作成する作成手段として機能する。また、商品ローテーション計画が複数の引き出しを有する商品ボックスに対して作成されている場合には、ＣＰＵ２１は、その複数の引き出しのそれぞれに対して予め計画された種類の商品を予め計画された数だけ商品ボックスに配置することを販売員３２に指示する商品配置指示を作成する作成手段として機能する。商品配置指示は、メモリ装置２３に格納される。
【００８２】
図９は、メモリ装置２３に格納された商品配置指示のデータ構造の一例を示す。図９に示される商品配置指示は、例えば、図６に示される商品ローテーション計画と図７に示される訪問計画とを用いて、販売員３２が商品ボックスの設置場所を訪問する日として２００２年３月１１日（月曜日）を指定することによって得られる。このような日の指定は、キーボード２４ａを用いて日を表す数字（例えば、２００２／３／１１）を入力することによってなされてもよいし、マウス２４ｂを用いてディスプレイ２５ａに表示されるカレンダーの日をクリックすることによってなされてもよい。
【００８３】
図９に示される商品配置指示は、以下の▲１▼〜▲８▼の指示を含む。この指示に従って販売員３２が行動することになる。
【００８４】
▲１▼「２００２年３月１１日」に、販売員３２の「Ｉ　片岡」さんが、「○○商事１課」、「○○商事２課」、「△△生命」、「××生命」、「○△コンピュータ」、「○×物産」という６つの設置場所を訪問すること
▲２▼その訪問の順序は、「○○商事１課」→「○○商事２課」→「△△生命」→「××生命」→「○△コンピュータ」→「○×物産」の順であること
▲３▼「○○商事１課」に設置されている商品ボックスには、３個の商品ａと３個の商品ｆとを含む合計２７個の商品を配置すること（なお、商品ａ、商品ｆ以外の２１個の商品については図示を省略している）
▲４▼「○○商事２課」に設置されている商品ボックスには、３個の商品ａと３個の商品ｆとを含む合計２７個の商品を配置すること（なお、商品ａ、商品ｆ以外の２１個の商品については図示を省略している）
▲５▼「△△生命」に設置されている商品ボックスには、３個の商品ｂと３個の商品ｇとを含む合計２７個の商品を配置すること（なお、商品ｂ、商品ｇ以外の２１個の商品については図示を省略している）
▲６▼「××生命」に設置されている商品ボックスには、３個の商品ｂと３個の商品ｇとを含む合計２７個の商品を配置すること（なお、商品ｂ、商品ｇ以外の２１個の商品については図示を省略している）
▲７▼「○△コンピュータ」に設置されている商品ボックスには、３個の商品ｃと３個の商品ｈとを含む合計２７個の商品を配置すること（なお、商品ｃ、商品ｈ以外の２１個の商品については図示を省略している）
▲８▼「○×物産」に設置されている商品ボックスには、３個の商品ｃと３個の商品ｈとを含む合計２７個の商品を配置すること（なお、商品ｃ、商品ｈ以外の２１個の商品については図示を省略している）
なお、上述した▲３▼〜▲８▼の指示において、「商品を配置する」とは、商品ボックス内の商品を補充しまたは入れ替えた結果として、商品ボックス内の商品の配置が商品配置指示によって指示された商品の配置となるようにするという意味である。すなわち、商品配置指示とは、商品ボックス内の商品の補充または入れ替えが完了した時点での商品ボックス内の商品の配置を指示するものをいう。
【００８５】
なお、商品配置指示は、図９に示される例のように、指定された日に訪問すべきすべての設置場所について商品の配置を指定するものであってもよいし、指定された日に訪問すべき個々の設置場所について商品の配置を指定するものであってもよい。
【００８６】
ＣＰＵ２１は、例えば、図９に示される表形式で商品配置指示を紙に印刷し、その印刷した紙をプリンタ２５ｂから出力する。販売員３２は、商品配置指示が印刷された紙を受け取り、その商品配置指示（例えば、上述した▲１▼〜▲８▼の指示）に従って行動する。
【００８７】
あるいは、ＣＰＵ２１は、商品配置指示を端末インタフェース部２６を介して端末装置３０に送信するようにしてもよい。この場合、端末装置３０は、コンピュータインタフェース部３４を介して商品配置指示を受信し、受信した商品配置指示を表示部３５に表示する。
【００８８】
図１０は、端末装置３０の表示部３５に表示された商品配置指示の一例（表示部３５の画面の一例）を示す。図１０に示される例では、いままさに訪問している設置場所（例えば、△△生命）に関する商品配置指示のみが表示されている。このような表示は、表示面積の狭い表示部３５を有効活用する上で好都合である。このような表示は、例えば、図９に示される商品配置指示から、販売員３２によって指定された設置場所に対応するデータのみを表示することによって達成され得る。
【００８９】
ここで、販売員３２の行動として特筆すべきことは、販売員３２は、現実に商品が販売されたか否か（消費されたか否か）にかかわらず、商品配置指示に従って商品ボックス内の商品を補充しまたは入れ替えることである。この点で、本発明の商品ボックス管理システムに基づく商品配置指示は、現実にどの商品が売れたかを時々刻々把握し、”売れ筋”商品の販売に力を入れるＰＯＳ（Ｐｏｉｎｔｏｆ　Ｓａｌｅｓ）方式に基づく商品配置指示とは発想をまったく異にするものである。
【００９０】
販売員３２は、商品ボックスの設置場所では、商品ボックスから回収した金額と商品の販売数（または、商品の在庫数）とを端末装置３０に入力すれば足り、どの商品が何個販売されたかを端末装置３０に入力する必要はない。販売センターの倉庫からワゴン３４に商品を持ち出す際に、どの商品を何個持ち出すかを販売員３２が端末装置３０に入力し、ワゴン３４から販売センターの倉庫に商品を持ち帰る際に、どの商品を何個持ち帰るかを販売員３２が端末装置３０に入力することにより、商品の入出庫を管理することができるからである。これにより、販売員３２は、商品ボックスの設置場所では、商品コードを入力する手間を省くことができる。これにより、商品ボックスの設置場所１か所あたりに要する時間を短縮し、一定の時間内に多くの商品ボックスの設置場所を訪問することが可能になる。
【００９１】
端末装置３０に入力されたデータは、コンピュータインタフェース部３４を介してコンピュータ２０に送信される。コンピュータ２０は、端末装置インタフェース部２６を介してデータを受信し、受信したデータに対して所定の処理を行う。
【００９２】
【発明の効果】
本発明によれば、商品ローテーション計画と訪問計画とに基づいて、商品配置指示が作成される。この商品配置指示に従って商品ボックスに商品を配置することにより、商品のロス（すなわち、商品の総発注数−総消費数）を低減するとともに、商品の発注数を低減することが可能になる。その結果、商品の利益率を向上させることができる。
【図面の簡単な説明】
【図１】本発明の実施形態のコンピュータシステム１の構成例を示す図
【図２】商品ボックスの一例を示す図
【図３】商品ローテーション計画の一例を模式的に示す図
【図４Ａ】商品ローテーションによる商品のロスの低減効果および商品の発注数の低減効果をシミュレーションした結果を示す図
【図４Ｂ】商品ローテーションによる商品のロスの低減効果および商品の発注数の低減効果をシミュレーションした結果を示す図
【図４Ｃ】商品ローテーションによる商品のロスの低減効果および商品の発注数の低減効果をシミュレーションした結果を示す図
【図５Ａ】販売センターに設置されているコンピュータ２０の構成例を示す図
【図５Ｂ】販売員３２によって携帯される端末装置３０の構成例を示す図
【図６】商品ローテーション計画のデータ構造の一例を示す図
【図７】訪問計画のデータ構造の一例を示す図
【図８】商品配置指示プログラムの手順の一例を示すフローチャート
【図９】商品配置指示のデータ構造の一例を示す図
【図１０】端末装置３０の表示部３５に表示された商品配置指示の一例を示す図
【符号の説明】
１　コンピュータシステム
１０　コンピュータ
１２　回線
１４　製品ＤＢ
２０　コンピュータ
３０　端末装置
３２　販売員
３４　ワゴン[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a product box management apparatus, a product box management system, and a program for managing a plurality of product boxes installed at a plurality of places.
[0002]
[Prior art]
Traditionally, the “Toyama Placement” system business is known in which drug boxes containing several types of drugs are placed at home, and when the drugs are consumed at home, the price of the drugs is collected and replenished. It has been.
[0003]
[Problems to be solved by the invention]
However, the method of product placement in this business is based on the idea of supplementing the same medicine as the consumed medicine, and other methods have not been considered.
[0004]
An object of the present invention is to provide a merchandise box management device, a merchandise box management system, and a program for managing a plurality of merchandise boxes installed at a plurality of locations with a completely new idea that has not been provided in the past.
[0005]
[Means for Solving the Problems]
A merchandise box management device of the present invention is a merchandise box management device that manages a plurality of merchandise boxes installed at a plurality of locations, and a merchandise rotation plan that defines at least the rotation of merchandise placement over a plurality of periods; Storage means for storing at least a visit plan that defines the order in which a salesperson visits the plurality of locations, and a pre-planned type of product based on the product rotation plan and the visit plan. Creating means for creating a product placement instruction for instructing the salesperson to place the product in the product box, thereby achieving the above object.
[0006]
The product rotation plan defines a plurality of product arrangement patterns for each of the plurality of periods, and each of the plurality of product arrangement patterns arranges a pre-planned number of products. Each of the plurality of locations is assigned any one of the plurality of product placement patterns, and the creating means is in accordance with the product placement pattern assigned to the location where the product box is installed, The type and number of products to be placed in the product box may be determined, and the product placement instruction may be created based on the determination result.
[0007]
The plurality of product arrangement patterns include a first product arrangement pattern and a second product arrangement pattern different from the first product arrangement pattern, wherein the plurality of periods include the first period, the first A second period after the first period, and the first commodity arrangement pattern in the first period at least indicates that a predetermined number of products of a specific type are arranged, The second product arrangement pattern in the second period may at least indicate that a predetermined number of the specific types of products are arranged.
[0008]
The number of places to which the first product arrangement pattern is assigned among the plurality of places is N₁, N is the number of places to which the second product arrangement pattern is assigned among the plurality of places.₂N₁≧ N₂It may be.
[0009]
Each of the plurality of product boxes has a plurality of drawers, and the creating means arranges a pre-planned number of products of a pre-planned type for each of the plurality of drawers. A product placement instruction for instructing the salesperson may be created.
[0010]
The product box management device may further include a transmission unit that transmits the product placement instruction to the terminal device.
[0011]
The program of the present invention is a program for causing a computer to execute a product box management process for managing a plurality of product boxes installed at a plurality of locations, wherein the computer rotates the arrangement of products over a plurality of periods. A storage means for storing at least a product rotation plan to be defined and a visit plan to define at least an order in which a salesperson visits the plurality of locations; and the product box management process includes the product rotation plan and the product rotation plan. Including a step of creating a product placement instruction for instructing the salesperson to place a pre-planned number of products in a product box based on a visit plan based on the visit plan. Is achieved.
[0012]
The merchandise box management system of the present invention is a merchandise box management system that manages a plurality of merchandise boxes installed at a plurality of locations, and the merchandise box management system includes a merchandise box management device and a terminal device. The merchandise box management device stores a merchandise rotation plan that at least defines rotating the arrangement of merchandise over a plurality of periods, and a visit plan that defines at least the order in which a salesperson visits the plurality of locations. Based on the storage means, the product rotation plan, and the visit plan, create a product placement instruction that instructs the salesperson to place a pre-planned number of products in the product box in a pre-planned number. Creating means; and transmitting means for transmitting the product placement instruction to the terminal device, the terminal Location includes receiving means for receiving the goods layout instruction from the product box management device, and a display means for displaying the goods layout instruction, thereby the objective described above being achieved.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
1. Computer system configuration
FIG. 1 shows a configuration example of a computer system 1 according to an embodiment of the present invention.
[0014]
The computer system 1 includes a computer 10, a plurality of computers 20 connected to the computer 10 via a line 12, and a plurality of terminal devices 30 that are communicably connected to the plurality of computers 20.
[0015]
The computer 10 is installed in the headquarters and connected to a product database (product DB) 14 that manages products (products) to be sold. Each of the plurality of computers 20 is installed in a sales center. Each of the plurality of terminal devices 30 is carried by a salesperson 32 belonging to a sales center.
[0016]
The computer 20 transmits an instruction (for example, a product placement instruction) to the terminal device 30 carried by the salesperson 32 affiliated with the sales center, and receives a report for the instruction from the terminal device 30. The salesperson 32 loads the goods into the wagon 34 according to the instruction from the computer 20, visits the customer company together with the wagon 34 according to the instruction from the computer 20, and is installed in one or more workplaces (offices) of the customer company. Inspect, replenish, and replace the product box.
2. What is a product box?
In the present specification, the “product box” refers to a product in which at least one product can be arranged. The kind of goods is not ask | required. For example, the product can be a confectionery.
[0017]
FIG. 2 shows a three-stage organized box type product box 40 as an example of a “product box”. The product box 40 is configured to store a plurality of confectionery in each of an upper (first stage) drawer 41, a middle (second stage) drawer 42, and a lower (third stage) 43 drawer. Yes.
[0018]
It is very convenient if such a product box 40 is installed in a workplace (office). This is because when a customer company employee wants to eat confectionery while enduring hunger between work and overtime, there is no hassle to go out of the company and go shopping. The employee who thought “I want to eat sweets” may take out the favorite sweets from the product box 40 and put the price of the sweets into the product box 40 through the slot 45. The product box 40 has a charge box 46 for storing the input price. The charge box 46 is preferably provided with some kind of protection mechanism to prevent the charged money from being stolen.
[0019]
In this way, by installing the product box 40 in the workplace (office), the employee can easily obtain the confectionery when he / she wants to refresh his / her mood or recover from work fatigue. As a result, work efficiency can be improved (healing effect) rather than continuing to work.
[0020]
The contents of the product box 40 are inspected regularly by the salesperson 32 (for example, once a week, twice a week, once every two weeks, etc.). The salesperson 32 collects the price from the charge box 46 of the product box 40 and replenishes or replaces the product. For example, each time the salesperson 32 visits the workplace (office), it is preferable to produce novelty by totally replacing the contents of any one of the product boxes 40.
[0021]
Here, “product replenishment” means that a product that was not sold (not consumed) is left in the product box as it is, and a product of the same type as the sold (consumed) product is sold (consumed) This means that the same number of products as the number of products is newly placed in the product box. That is, the replenishment of the product means returning the state of the product box to the state before the product is sold (consumed). “Replacement of product” means that a product that has not been sold (consumed) is lifted from the product box, and a different type of product is sold (consumed) than the product that was sold (consumed). B) To place the same number of new products in the product box. That is, the replacement of the product means placing the state of the product box in a state different from the state before the product is sold (consumed).
[0022]
The price of each product in the “product box” is preferably a flat fee (for example, 100 yen). This is because the purchaser of the product does not have to check the price of the product.
[0023]
The replenishment or replacement of the products in the “product box” is systematically performed according to the “product rotation plan” and the “visit plan”. In the following, “Commodity Rotation Plan” will be explained in Chapter 3, and “Visit Plan” will be explained in Chapter 4.
3. Product rotation plan
FIG. 3 schematically shows an example of a product rotation plan. In FIG. 3, a thick line indicates a plan for arranging one product (here, product a) in the product box. That is, FIG. 3 shows that product a is placed in each of the product boxes installed in Group A locations (for example, 40 locations) from the first week to the third week, and from the third week to the fifth week. Places product a in each of the product boxes installed in Group B locations (for example, 40 locations), and installs them in Group C locations (for example, 40 locations) from week 5 to week 7. This shows a plan for arranging the product a in each of the product boxes. As described above, the product rotation plan at least defines that the arrangement of the products is rotated over a plurality of periods (in the example illustrated in FIG. 3, the period from the first week to the seventh week). Here, for simplicity, it is assumed that the number of product boxes is one.
[0024]
Products a that have not been consumed in the product box installed in the group A place from the first week to the third week are placed in the product box installed in the group B place from the fourth week to the fifth week. Is done. Products a that have not been consumed in the product box installed in the group B place from the third week to the fifth week are placed in the product box installed in the group C place from the sixth week to the seventh week. Is done. In this way, by turning the product a that has not been consumed in the product box installed in a certain group location to the product box installed in another group location, the loss of the product a (ie, the product a (Total order number-total consumption number) and the order number of the product a can be reduced. Thereby, the profit rate of the goods a can be improved.
[0025]
FIG. 4A, FIG. 4B, and FIG. 4C show the simulation results of the product loss reduction effect and product order reduction effect due to product rotation.
[0026]
As preconditions common to FIGS. 4A to 4C, the number of installation locations of product boxes (number of installation locations) is 120, the number of products a placed per product box (number of placements) is 3, per week The sales rate (consumption rate) of product a is 50%.
[0027]
FIG. 4A shows a simulation result in the case where there is no product rotation (the number of installation places of group A = 40, the number of installation places of group B = 40, the number of installation places of group C = 40). In the example shown in FIG. 4A, since the total number of orders for the product a = 720 and the total consumption number of the product a = 540, the loss of the product a = 180 (= the total order number of the product a−the total consumption of the product a. Number).
[0028]
FIG. 4B shows a simulation result in the case of product rotation (number of installation places of group A = 40, number of installation places of group B = 40, number of installation places of group C = 40). The method for rotating the product a is as described with reference to FIG. A product a that has not been consumed in the product box installed in the group A place from the first week to the third week is sent to the product box installed in the group B place. Similarly, a product a that has not been consumed in the product box installed in the group B location from the third week to the fifth week is sent to the product box installed in the group C location. In the example shown in FIG. 4B, since the total order number of the product a = 600 and the total consumption number of the product a = 540, the loss of the product a = 60 (= the total order number of the product a−the total consumption of the product a. Number). By performing the product rotation shown in FIG. 4B, it can be seen that the loss of the product a is reduced and the number of orders for the product a is reduced as compared to the case without the product rotation shown in FIG. 4A.
[0029]
FIG. 4C shows a simulation result in the case of product rotation (number of installation locations of group A = 60, number of installation locations of group B = 40, number of installation locations of group C = 20). The method for rotating the product a is as described with reference to FIG. A product a that has not been consumed in the product box installed in the group A place from the first week to the third week is sent to the product box installed in the group B place. Similarly, a product a that has not been consumed in the product box installed in the group B location from the third week to the fifth week is sent to the product box installed in the group C location. In the example shown in FIG. 4C, since the total order number of the product a = 570 and the total consumption number of the product a = 540, the loss of the product a = 30 (= the total order number of the product a−the total consumption of the product a. Number). By performing the product rotation shown in FIG. 4C, the loss of the product a is further reduced and the number of orders for the product a is further reduced compared to the case with the product rotation shown in FIG. 4B. Understand. This is because the product a that has not been consumed in one group is changed in another group by grading the number of installation locations of each group along the direction of rotation of the product a from group A → group B → group C. This is because it is used more effectively as a supplement.
[0030]
In this manner, in the first period (in the example shown in FIG. 3, from the first week to the third week), the product a is arranged in the product box installed in the place of the group A by the planned number, and the first In the second period after the period (in the example shown in FIG. 3, the third week to the fifth week in the example shown in FIG. 3), the product a is arranged in the product box installed in the place of the group B by the planned number. N is the number of places in group A₁, The number of places in group B is N₂N₁≧ N₂It is preferable that this relationship holds. Similarly, in the third period after the second period (in the example shown in FIG. 3, from the fifth week to the seventh week), the number of products a planned in advance in the product box installed in the group C location Only the number of places in group C is N₃N₂≧ N₃It is preferable that this relationship holds.
[0031]
In the example shown in FIG. 3, a part of the first period and a part of the second period overlap in time. However, the setting of the product rotation period is not limited to this. The first period and the second period may not overlap in time. The same applies to the second period and the third period.
[0032]
In this specification, the expression “second period after the first period” means that the start of the second period is after the start of the first period and the end of the second period is the second period. It means that it is after the end of one period. It does not matter whether part of the first period and part of the second period overlap in time. The same applies to the expression “a third period after the second period”.
[0033]
In the example shown in FIG. 3, the first period, the second period, and the third period are each three weeks. Thus, the novelty of the product can be maintained by rotating the product in a relatively short period of time. As a result, it is possible to suppress a reduction in the sales rate (digestion rate) of the product as time elapses. This is because it is generally considered that the sales rate (consumption rate) of a product decreases when the same product is displayed over a long period of time. However, the setting of the length of each period is not limited to this. The length of each period can be any length. However, it is preferable that the length of each period is set in consideration of the quality guarantee period and the expiration date of the product.
[0034]
In the example shown in FIG. 3, the locations where the product boxes are installed are classified into three groups: A group, B group, and C group. However, the number of groups in the place where the product box is installed is not limited to three. The number of groups of places where product boxes are installed may be any integer greater than or equal to two. The location of the A group refers to, for example, a location to which a product arrangement pattern A described later is assigned. The B group location refers to, for example, a location to which a later-described product arrangement pattern B is assigned. The C group location refers to, for example, a location to which a later-described product arrangement pattern C is assigned.
[0035]
In the example shown in FIG. 3, the product rotation plan has been described for one product (product a). In practice, a product rotation plan is established for all products to be sold. However, the individual products are as described for the product a.
[0036]
In addition, when the product box has a plurality of drawers, a product rotation plan can be set for each of the plurality of drawers. In this case, a product rotation plan may be made by regarding each of the plurality of drawers as an independent product box.
[0037]
For example, when the product box has three drawers like the product box 40 shown in FIG. 2 and each of the three drawers is replenished or replaced every week, It is preferable to replenish or replace the product as described above.
[0038]

[0039]
The product rotation plan is usually created by a sales center manager (center manager). The product rotation plan may be created independently at the sales center, or may be created by downloading the headquarter plan from the headquarters and correcting a part of the headquarter plan.
4). Visit plan
The salesperson 32 has his own sales area and is in charge of product boxes installed at a plurality of locations (for example, 120 workplaces) in the sales area.
[0040]
As a general rule, a visit plan is created for each salesperson 32 so that a plurality of places that the salesperson 32 is responsible for can be visited once a week. For example, the salesperson 32 visits the 1st to 24th places in his sales area on Monday, visits the 25th to 48th places on Tuesday, and starts from the 49th place. Visit plans are made to visit the 72nd place on Wednesday, the 73rd to 96th place on Thursday, and the 97th to 120th place on Friday. The Needless to say, a visitor's company holiday, a sales center holiday, a salesperson 32 holiday, and the like are taken into consideration when creating a visit plan.
[0041]
The visit plan is created so as to define at least the order in which the salesperson 32 visits a plurality of places where a plurality of product boxes are installed. For example, the order of visiting a plurality of places is determined so that, in principle, the salesperson 32 can travel around the place to be visited that day by the shortest route. Such determination of the shortest route can be performed using, for example, a commercially available action planning program.
[0042]
A visit plan is usually created by a sales center manager (center manager). Change of the person in charge, change of sales area, change of visit route, change of holiday, etc. are also made by the center director as necessary.
5. Configuration of computer and terminal device
FIG. 5A shows a configuration example of the computer 20 installed in the sales center.
[0043]
The computer 20 includes a CPU (central processing unit) 21, a main memory 22, a memory device 23 such as a hard disk device (HDD), an input interface unit 24, an output interface unit 25, a terminal device interface unit 26, a network And an interface unit 27. These components 21 to 27 are connected to each other via a bus 28, for example. The computer 20 can be, for example, a personal computer.
[0044]
The memory device 23 stores a product rotation plan, a visit plan, a program expressing processing for managing product boxes (hereinafter referred to as “product box management program”), and other various programs. Alternatively, these data and programs can be recorded on any type of computer-readable recording medium such as a flexible disk, a CD-ROM, and a DVD-ROM. Data and programs recorded in such a recording medium can be loaded into the memory device 23 via an input device (for example, a disk drive).
[0045]
The CPU 21 executes a product box management program stored in the memory device 23. When the CPU 21 executes the product box management program, the computer 20 functions as a product box management device that manages a plurality of product boxes installed in a plurality of locations. In this case, the computer system 1 functions as a product box management system including a computer (product box management device) 20 and a terminal device 30.
[0046]
Part of the product box management program or part of the data is moved to the main memory 22 as necessary. The CPU 21 can access the main memory 22 at high speed.
[0047]
Input devices such as a keyboard 24 a and a mouse 24 b are connected to the input interface unit 24.
[0048]
To the output interface unit 25, output devices such as a display 25a and a printer 25b are connected.
[0049]
The terminal device interface unit 26 is used to communicate with the terminal device 30. The mode of communication between the computer 20 and the terminal device 30 does not matter. For example, the communication between the computer 20 and the terminal device 30 may be wireless communication or wired communication.
[0050]
The network interface unit 27 is used for communication with the computer 10. The mode of communication between the computer 20 and the computer 10 does not matter. For example, the communication between the computer 20 and the computer 10 may be wireless communication or wired communication via the line 12. For example, the line 12 may be a public line or a dedicated line.
[0051]
FIG. 5B shows a configuration example of the terminal device 30 carried by the salesperson 32.
[0052]
The terminal device 30 includes a CPU 31, a random access memory (RAM) 32, a read only memory (ROM) 33, a computer interface unit 34, and a display unit 35. These components 31 to 35 are connected to each other through a bus 36, for example. The terminal device 30 is preferably a small and lightweight information processing terminal with a mobile function (for example, a PDA) so that it can be easily carried.
[0053]
The ROM 33 stores in advance a control program for controlling communication with the computer 20 and input from the salesperson 32. The CPU 31 executes the control program.
[0054]
The computer interface unit 34 is used for communication with the computer 20. The RAM 32 is used for temporarily storing parameters and data necessary for execution of the control program.
[0055]
The display unit 35 is used to display data transmitted from the computer 20 and a processing result by the CPU 31. The display unit 35 is, for example, a liquid crystal display (LCD).
[0056]
Note that the configuration shown in FIG. 5A is merely an example of the configuration of the computer 20, and the configuration shown in FIG. 5B is merely an example of the configuration of the terminal device 30. The applicant does not intend to limit the configurations of the computer 20 and the terminal device 30 to the configurations shown in FIGS. 5A and 5B. The computer 20 and the terminal device 30 may have arbitrary configurations as long as they realize functions equivalent to those.
6). Product box management program
The product box management program provides functions necessary for managing a plurality of product boxes installed at a plurality of locations. The product box management program is, for example, a program for creating / editing a product rotation plan, a program for creating / editing a visit plan, a program for creating product placement instructions, a program for managing product inventory, and a program for managing product sales including.
[0057]
The program for creating / editing the product rotation plan has a function of creating a new product rotation plan and storing it in the memory device 23, and a function of reading out the product rotation plan stored in the memory device 23 and editing it. provide. A person skilled in the art can design such a program in accordance with the data structure of the product rotation plan.
[0058]
FIG. 6 shows an example of the data structure of the product rotation plan. The product rotation plan shown in FIG. 6 shows a part of the product rotation plan for one year in a certain sales center (the product rotation plan from the 11th week to the 17th week in 2002).
[0059]
In the example shown in FIG. 6, the product rotation plan defines three product placement patterns (product placement pattern A, product placement pattern B, and product placement pattern C) for each week. Each of the three product arrangement patterns indicates that a pre-planned number of products are arranged in a pre-planned number. For example, the column indicated by the reference number 62 includes three products a and three products f as a product arrangement pattern A for one week starting from March 11, 2002 (that is, the eleventh week of 2002). At least three products b and three products g as the product arrangement pattern B, and at least three products c and three products h as the product arrangement pattern C. Show.
[0060]
It is preferable that the number of product placement of the product placement pattern A, the number of product placement of the product placement pattern B, and the number of product placement of the product placement pattern C are constant (for example, 27).
[0061]
The row indicated by reference number 61 is from one week starting on March 11, 2002 (ie, week 11 of 2002) to one week starting on April 22, 2002 (ie, week 17 of 2002). It shows that the arrangement of the product a is rotated in the order of the product arrangement pattern A → the product arrangement pattern B → the product arrangement pattern C. This product rotation mode is the same as the product rotation mode described in Chapter 3, “Product Rotation Plan”.
[0062]
It is assumed that any one of a plurality of product arrangement patterns is assigned in advance to the place where the product box is installed. For example, the product placement pattern A is assigned to the installation location of the product box in the customer company of group A, and the product placement pattern B is assigned to the installation location of the product box in the customer company of group B. A product arrangement pattern C is assigned to the installation location of the product box.
[0063]
In the example shown in FIG. 6, three product arrangement patterns are defined for each week. However, the period during which the product arrangement pattern is defined is not limited to one week. The period in which the product arrangement pattern is defined can be set with a period having an arbitrary length as a unit. Also, the number of product arrangement patterns defined within one unit period is not limited to three. The number of product arrangement patterns defined within one unit period may be any integer of 2 or more.
[0064]
The program for creating / editing a visit plan provides a function for creating a new visit plan and storing it in the memory device 23 and a function for reading a visit plan stored in the memory device 23 and editing it. A person skilled in the art can design such a program according to the data structure of the visit plan.
[0065]
FIG. 7 shows an example of the data structure of the visit plan. The visit plan shown in FIG. 7 shows a part of the visit plan of one salesperson 32 (visit plan from March 11 to March 20, 2002) in a certain sales center.
[0066]
In the example shown in FIG. 7, the visit plan defines a place to be visited on the day among places where the product boxes are installed, and an order of visiting the place on a daily basis. In FIG. 7, “1” indicates a place to be visited on that day among places where the product box is installed. Assume that the order of visiting the locations is from the top to the bottom of the page. For example, the column indicated by the reference number 71 is “XXX Trading Section 1” → “XX Trading Section 2” → “△△ Life” → “XX Life” → “ ○ △ Computer ”→” ○ × Product ”indicates visiting the place where the product box is installed.
[0067]
Any one of the product placement pattern A, the product placement pattern B, and the product placement pattern C is assigned in advance to the place where the product box is installed. In the example shown in FIG. 7, after visiting two places to which the product placement pattern A is assigned, the two places to which the product placement pattern B is assigned are visited, and then the product placement pattern C is assigned 2 Scheduled to visit places.
[0068]
The order of visiting the place where the product box is installed is generally the order of the place where the product placement pattern A is assigned → the place where the product placement pattern B is assigned → the place where the product placement pattern C is assigned. Is preferred. That is, the visiting order patterns are A, A, A,... A, B, B, B,... B, C, C, C,. The reason why such a visit order pattern is preferable is that a product collected from a location to which product placement pattern A is assigned can be placed in a location to which product placement pattern B is assigned, and product placement pattern B is assigned. This is because the product collected from the assigned location can be placed at the location where the product placement pattern C is assigned. Thereby, it is possible to reduce the types of products or the number of products taken out from the warehouse of the sales center to the wagon 34. The visit order pattern may include B in part of the A, A, A,... A pattern, and C in part of the B, B, B,. For example, A, A, B, A,... A, B, B, C, B... B, C, C, C,.
[0069]
In the example shown in FIG. 7, the number of product box installation locations visited on Monday, March 11, 2002 is six. However, the number of product box installation locations to be visited on a daily basis is not limited to six. The number of installation locations of the product boxes to be visited on a daily basis may be any integer greater than or equal to one. However, the number of installation locations of the product boxes to be visited per day is such that the salesperson 32 can visit the customer company in his sales area at least once a week (or two weeks). It is preferable to set to.
[0070]
FIG. 8 shows a program (hereinafter referred to as “product placement instruction program”) that creates a product placement instruction that instructs the salesperson 32 to place a pre-planned number of products in the product box in a pre-planned number. An example of the procedure is shown. The product placement instruction program is stored in the memory device 23 and is executed by the CPU 21. Hereinafter, the procedure of the product placement instruction program will be described step by step.
[0071]
Step S1: The CPU 21 refers to the data corresponding to the specified date from the visit plan stored in the memory device 23. The data indicates the installation location of the product box that the salesperson 32 should visit on the designated day.
[0072]
Step S2: The CPU 21 initializes the value of the variable i (i = 1). Here, the variable i indicates an installation location (hereinafter, referred to as “i-th installation location”) of the product box that the salesperson 32 should visit on the specified date.
[0073]
Step S3: The CPU 21 refers to the product arrangement pattern assigned to the i-th installation location.
[0074]
If the product arrangement pattern assigned to the i-th installation location is the product arrangement pattern A (“Yes” in step S4), the process proceeds to step S5. Similarly, when the product arrangement pattern assigned to the i th installation location is the product arrangement pattern B (“Yes” in step S6), the process proceeds to step S7, and the i th installation location is changed to the i th installation location. If the assigned product arrangement pattern is the product arrangement pattern C (“Yes” in step S8), the process proceeds to step S9.
[0075]
Step S5: The CPU 21 refers to the data of the product arrangement pattern A corresponding to the week including the designated day from the product rotation plan stored in the memory device 23. The data indicates how many products are arranged as the product arrangement pattern A.
[0076]
Step S7: The CPU 21 refers to the data of the product arrangement pattern B corresponding to the week including the designated day from the product rotation plan stored in the memory device 23. The data indicates how many products are arranged as the product arrangement pattern B.
[0077]
Step S9: The CPU 21 refers to the data of the product arrangement pattern C corresponding to the week including the designated day from the product rotation plan stored in the memory device 23. The data indicates how many products are arranged as the product arrangement pattern C.
[0078]
Step S10: The CPU 21 creates a product placement instruction corresponding to the i-th installation location based on the data referenced from the product rotation plan.
[0079]
In this way, in steps S4 to S9, the CPU 21 arranges and how many products are placed in the product box according to the product placement pattern assigned to the place where the product box is placed (that is, in the product box). In step S10, the CPU 21 creates a product placement instruction based on the determination result.
[0080]
Step S11: The CPU 21 determines whether or not there is a next installation location. For example, when the number of installation locations to be visited on a specified day is N (N is an integer equal to or greater than 1), this determination is performed by determining whether i <N is satisfied. . If “Yes” in step S11, the value of variable i is incremented by 1 (step S12), and the process returns to step S3. If “No” in step S11, the process ends.
[0081]
In this way, by operating the CPU 21 in accordance with the product placement instruction program, the CPU 21 places a pre-planned number of products in the product box based on the product rotation plan and the visit plan. It functions as a creation means for creating a product placement instruction that instructs the salesperson 32. In addition, when the product rotation plan is created for a product box having a plurality of drawers, the CPU 21 has a pre-planned number of products of a pre-planned type for each of the plurality of drawers. It functions as a creation means for creating a product placement instruction that instructs the salesperson 32 to place the product in the product box. The product placement instruction is stored in the memory device 23.
[0082]
FIG. 9 shows an example of the data structure of the product placement instruction stored in the memory device 23. The product placement instruction shown in FIG. 9 is, for example, the date when the salesperson 32 visits the place where the product box is installed using the product rotation plan shown in FIG. 6 and the visit plan shown in FIG. It is obtained by designating Monday 11th. Such designation of the day may be made by inputting a number representing the day (for example, 2002/3/11) using the keyboard 24a, or a calendar displayed on the display 25a using the mouse 24b. It may be done by clicking on the day.
[0083]
The merchandise arrangement instruction shown in FIG. 9 includes the following instructions (1) to (8). The salesperson 32 will act according to this instruction.
[0084]
(1) On March 11, 2002, salesperson 32, “I Kataoka,” said “XX Trading Division 1,” “XX Trading Division 2,” “△△ Life,” “XX Life. ”,“ XX Computer ”, and“ XX Product ”
(2) The order of the visit is “XX Trading Section 1” → “XX Trading Section 2” → “△△ Life” → “XX Life” → “XX Computer” → “XX Product” Be
(3) A total of 27 products including 3 products a and 3 products f will be placed in the product box installed in “XX Trading Section 1” (Product a, Product (The illustration of 21 products other than f is omitted)
(4) A total of 27 products including 3 products a and 3 products f are placed in the product box installed in “XX Trading Section 2” (note that product a, product (The illustration of 21 products other than f is omitted)
(5) A total of 27 products including 3 products b and 3 products g are arranged in the product box installed in “△△ Life” (in addition to products b and products g) The 21 products are not shown)
(6) A total of 27 products including 3 products b and 3 products g are arranged in the product box installed in “XX Life” (in addition to product b and product g) The 21 products are not shown)
(7) A total of 27 products including 3 products c and 3 products h are arranged in the product box installed in the computer (in addition to the products c and h). The 21 products are not shown)
(8) A total of 27 products including 3 products c and 3 products h are arranged in the product box installed in “XX product” (except for products c and products h) The 21 products are not shown)
In the above-mentioned instructions (3) to (8), “place product” means that the placement of the product in the product box is determined by the product placement instruction as a result of supplementing or replacing the product in the product box. This means that the designated product is arranged. That is, the product arrangement instruction is an instruction to instruct the arrangement of the product in the product box at the time when the replenishment or replacement of the product in the product box is completed.
[0085]
Note that the product placement instruction may specify the placement of products for all installation locations that should be visited on a designated day, as in the example shown in FIG. You may designate the arrangement | positioning of goods about each installation place which should be.
[0086]
For example, the CPU 21 prints a product placement instruction on paper in the table format shown in FIG. 9, and outputs the printed paper from the printer 25b. The salesperson 32 receives the paper on which the product placement instruction is printed, and acts according to the product placement instruction (for example, the above-described instructions (1) to (8)).
[0087]
Alternatively, the CPU 21 may transmit a product placement instruction to the terminal device 30 via the terminal interface unit 26. In this case, the terminal device 30 receives the product placement instruction via the computer interface unit 34 and displays the received product placement instruction on the display unit 35.
[0088]
FIG. 10 shows an example of a product arrangement instruction displayed on the display unit 35 of the terminal device 30 (an example of a screen of the display unit 35). In the example shown in FIG. 10, only the product placement instruction regarding the installation location (for example, ΔΔ Life) that is just visited is displayed. Such a display is convenient for effectively utilizing the display unit 35 having a small display area. Such display can be achieved, for example, by displaying only the data corresponding to the installation location designated by the salesperson 32 from the product arrangement instruction shown in FIG.
[0089]
Here, what should be noted as the behavior of the salesperson 32 is that the salesperson 32 selects the product in the product box according to the product placement instruction regardless of whether the product is actually sold (consumed or not). Replenish or replace. In this regard, the product placement instruction based on the product box management system of the present invention is a product based on the POS (Pointof Sale) method that constantly grasps which products are actually sold, and focuses on selling “selling” products. The arrangement instruction is completely different from the idea.
[0090]
The salesperson 32 only needs to input the amount collected from the product box and the number of products sold (or the number of products in stock) to the terminal device 30 at the installation location of the product box, and how many products have been sold. Is not required to be input to the terminal device 30. When a product is taken out from the sales center warehouse to the wagon 34, the salesperson 32 inputs the number of products to be brought into the terminal device 30, and when the product is taken back from the wagon 34 to the sales center warehouse, This is because when the salesperson 32 inputs to the terminal device 30 how many items are to be taken home, the entry / exit of the product can be managed. Thereby, the salesperson 32 can save the effort which inputs a goods code in the installation place of a goods box. As a result, the time required for each installation location of the product boxes can be shortened, and many installation locations of the product boxes can be visited within a certain time.
[0091]
Data input to the terminal device 30 is transmitted to the computer 20 via the computer interface unit 34. The computer 20 receives data via the terminal device interface unit 26 and performs predetermined processing on the received data.
[0092]
【The invention's effect】
According to the present invention, the product placement instruction is created based on the product rotation plan and the visit plan. By arranging the products in the product box in accordance with the product placement instruction, it is possible to reduce the loss of the products (that is, the total number of products ordered-the total consumption) and the number of products ordered. As a result, the profit margin of the product can be improved.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration example of a computer system 1 according to an embodiment of the present invention.
FIG. 2 is a diagram showing an example of a product box
FIG. 3 is a diagram schematically showing an example of a product rotation plan.
FIG. 4A is a diagram showing a result of simulating the effect of reducing product loss and the effect of reducing the number of product orders due to product rotation;
FIG. 4B is a diagram showing a result of simulating the effect of reducing product loss and the effect of reducing the number of product orders due to product rotation;
FIG. 4C is a diagram showing the result of simulating the effect of reducing product loss and the effect of reducing the number of product orders due to product rotation;
FIG. 5A is a diagram showing a configuration example of a computer 20 installed in a sales center.
FIG. 5B is a diagram showing a configuration example of the terminal device 30 carried by the salesperson 32
FIG. 6 is a diagram showing an example of the data structure of a product rotation plan
FIG. 7 is a diagram showing an example of the data structure of a visit plan
FIG. 8 is a flowchart showing an example of a procedure of a product arrangement instruction program
FIG. 9 is a diagram illustrating an example of a data structure of a product arrangement instruction
FIG. 10 is a diagram illustrating an example of a product arrangement instruction displayed on the display unit 35 of the terminal device 30.
[Explanation of symbols]
1 Computer system
10 Computer
12 lines
14 Product DB
20 computers
30 Terminal device
32 Salesperson
34 Wagon

Claims (8)

A product box management device for managing a plurality of product boxes installed at a plurality of locations,
Storage means for storing a product rotation plan that at least defines rotating the placement of products over a plurality of time periods, and a visit plan that defines at least the order in which a salesperson visits the plurality of locations;
Based on the product rotation plan and the visit plan, creation means for creating a product placement instruction that instructs the salesperson to place a pre-planned number of products in a product box in a pre-planned number. A product box management device. The product rotation plan defines a plurality of product arrangement patterns for each of the plurality of periods, and each of the plurality of product arrangement patterns arranges a pre-planned number of products. Each of the plurality of locations is assigned any one of the plurality of product arrangement patterns,
The creation means determines the type and number of products to be placed in the product box according to the product placement pattern assigned to the place where the product box is installed, and the product placement instruction based on the decision result The merchandise box management device according to claim 1, wherein The plurality of product arrangement patterns include a first product arrangement pattern and a second product arrangement pattern different from the first product arrangement pattern, wherein the plurality of periods include the first period, the first And a second period after one period,
The first product arrangement pattern in the first period indicates at least that a predetermined number of products of a specific type are arranged in advance, and the second product arrangement pattern in the second period includes the The product box management device according to claim 2, which indicates at least that a predetermined number of products of a specific type are arranged. When the number of places to which the first product placement pattern is assigned is N ₁ among the plurality of places, and the number of places to which the second product placement pattern is assigned among the plurality of places is N ₂ The product box management device according to claim 3, wherein N ₁ ≧ N ₂ . Each of the plurality of product boxes has a plurality of drawers,
The creation unit creates a product placement instruction that instructs the salesperson to place a pre-planned number of products of a pre-planned type for each of the plurality of drawers. Merchandise box management device. The merchandise box management device according to claim 1, further comprising transmission means for transmitting the merchandise arrangement instruction to a terminal device. A program for causing a computer to execute a product box management process for managing a plurality of product boxes installed in a plurality of places,
The computer has storage means for storing a product rotation plan that at least defines rotation of the arrangement of products over a plurality of periods, and a visit plan that defines at least the order in which a salesperson visits the plurality of locations. And
The product box management process includes:
Creating a product placement instruction that instructs the salesperson to place a pre-planned number of products in the product box based on the product rotation plan and the visit plan. ,program. A product box management system for managing a plurality of product boxes installed in a plurality of locations,
The product box management system includes a product box management device and a terminal device,
The product box management device
Storage means for storing a product rotation plan that at least defines rotating the placement of products over a plurality of time periods, and a visit plan that defines at least the order in which a salesperson visits the plurality of locations;
Based on the product rotation plan and the visit plan, creating means for creating a product placement instruction that instructs the salesperson to place a pre-planned number of products in a product box in a pre-planned number;
Transmission means for transmitting the product placement instruction to the terminal device,
The terminal device
Receiving means for receiving the product placement instruction from the product box management device;
A product box management system comprising display means for displaying the product placement instruction.

Images