JP3768012B2 - vending machine - Google Patents

Description

【００３９】
すなわち、湯沸し装置41において、湯タンク25の上ヒータ42a の運転は、湯タンク25の上層の湯温を、最小能力運転モードでは低く、最大能力運転モードでは高く保つように制御し、また、湯タンク25の下ヒータ42b の運転は、最小能力運転モードでは常に停止し、最大能力運転モードでは湯タンク25の下層の湯温を高く保つように制御する。さらに、冷却装置52において、コンプレッサ53の運転は、最小能力運転モードでは冷却水26の水温で制御し、最大能力運転モードでは氷の蓄氷具合で制御し、また、アジテータモータ58の運転は、最小能力運転モードではコンプレッサ53の運転時およびコールド飲料販売時を除いて停止し、最大能力運転モードでは連続運転に制御する。また、標準運転モードは、最小能力運転モードと最大能力運転モードとの中間の運転能力に制御する。
【００４０】
また、演算回路65は、販売頻度判別手段の機能、運転モード判別手段の機能、判断手段の機能、季節を判別する季節判別手段の機能を有している。
【００４１】
販売頻度判別手段の機能では、タイマ63およびカウンタ68のデータから、所定時間毎に単位時間当たりのホット飲料およびコールド飲料の個別の販売頻度を判別する。この販売頻度は、例えば１分毎に過去１０分間である。
【００４２】
運転モード判別手段の機能では、記憶部64に記憶されている運転モードの中から販売頻度判別手段の機能で判別される販売頻度に応じた運転モードを判別する。例えば、販売頻度が２杯以下であれば最小能力運転モードの運転プログラムＡと判別し、販売頻度が３〜１９杯以下であれば標準能力運転モードの運転プログラムＢと判別し、販売頻度が２０杯以上であれば最大能力運転モードの運転プログラムＣと判別する。なお、ホット飲料およびコールド飲料の個別の販売頻度から湯沸し装置41および冷却装置52について個別に運転モードを判別してもよいし、ホット飲料およびコールド飲料の合計の販売頻度から湯沸し装置41および冷却装置52に共通の運転モードを判別してもよく、これらは設定部66による個別制御モードおよび共通制御モードの選択によって設定される。
【００４３】
判断手段の機能では、カウンタ68に記憶された時間帯別販売頻度から販売頻度のピーク時間帯を判断するとともに、カウンタ68に記憶された１週間分の時間帯別販売頻度から販売頻度の低い日を判断する。なお、ピーク時間帯については、例えば販売頻度が所定数以上の時間帯が複数存在する場合には、複数のピーク時間帯を判断することになる。
【００４４】
季節判別手段の機能では、夏期と冬期を主体として季節を判別するもので、カレンダ機能、ホット飲料とコールド飲料の販売比率、環境温度などのいずれか１つまたは複数の組み合わせで割り出して自動設定する。
【００４５】
また、設定部66は、各種の設定を行なうもので、最小能力運転モード、標準能力運転モードおよび最大能力運転モードの中からいずれか１つを選択する運転モード選択手段の機能、季節優先モードを選択する季節優先モード選択手段の機能、湯沸し装置41および冷却装置52の個別制御モード、および湯沸し装置41および冷却装置52の共通制御モードのいずれか一方を選択する制御モード選択手段の機能を有し、さらに、その他の設定の機能を有している。
【００４６】
また、運転制御装置67は、湯沸し装置41および冷却装置52、製氷装置32を制御するもので、制御手段の機能を有し、この制御手段の機能は次のように構成されている。
【００４７】
通常は演算回路65の運転モード判定手段の機能で判定された運転モードで運転させるとともに、演算回路65の判断手段の機能で判断されたピーク時間帯に対応して最大能力運転モードで運転させるとともに、演算回路65の判断手段の機能で判断された販売頻度の低い日に対応して最小能力運転モードで運転させる。
【００４８】
設定部66による季節優先モードが未設定のときには演算回路65の運転モード選択手段の機能で選択された運転モードで運転させ、設定部66による季節優先モードが設定されているときには演算回路65の運転モード選択手段の機能で選択された運転モードに対して演算回路65の季節判別手段の機能で判別された季節に応じた運転モード側に変更してその運転モードで運転させる。例えば、ホット飲料の需要が少なくなる夏期であれば、湯沸し装置41の運転モードを最小能力運転モード側に１ランク下げ、コールド飲料の需要が少なくなる冬期であれば、冷却装置52の運転モードを最小能力運転モード側に１ランク下げる。
【００４９】
演算回路65の運転モード判別手段の機能で判別された運転モードで加熱運転および冷却運転を個別に制御する
設定部66による個別制御モードの選択時に湯沸し装置41および冷却装置52を個別に判別された運転モードで制御するとともに、設定部66による共通制御モードの選択時に湯沸し装置41および冷却装置52を共通に判別された運転モードで制御する。
【００５０】
次に、図５ないし図９のフローチャートを参照して運転制御について説明する。
【００５１】
運転制御の設定パターンには、当日の販売頻度による省エネ自動設定パターン、手動による単独設定パターン、時間帯別販売頻度の学習機能を併用した省エネ自動設定パターンがあり、それぞれのパターンについて順に説明する。
【００５２】
まず、当日の販売頻度による自動設定パターンについて図５および図６のフローチャートを参照して説明する。
【００５３】
設定部66で省エネ自動設定が設定されると（ステップ１）、湯タンク25の湯温や冷却装置52による冷却状態などから販売許容状態にあるか判断し（ステップ２）、許容状態になければ自動販売機の前面に配設された表示器で売り切れまたは準備中を表示して販売待機状態とする（ステップ３）。この販売待機状態では、湯沸し装置41により湯タンク25の湯水の沸き上げ、冷却装置52により冷却水槽27の冷却水26の冷却を実行し、このときの湯沸し装置41および冷却装置52の運転制御は最小能力運転モードの運転プログラムＡとする。
【００５４】
販売許容状態になれば、販売中を表示し、貨幣の受け入れを許容する（ステップ４）。
【００５５】
さらに、ホット飲料およびコールド飲料の合計の販売頻度で共通に制御する設定か判断する（ステップ５）。設定部66で共通制御モードが設定されている場合には、ホット飲料およびコールド飲料の合計の販売頻度から、湯沸し装置41および冷却装置52に共通の運転モードを判別して共通に制御する設定とする。設定部66で個別制御モードが設定されている場合には、ホット飲料およびコールド飲料の個別の販売頻度から、湯沸し装置41および冷却装置52の運転モードを個別に判別して個別に制御する設定とする（ステップ６）。なお、図面のフローチャート中では、ホット飲料をＨ、コールド飲料をＣと表す。
【００５６】
さらに、販売頻度を所定時間毎に判別する判別サイクル（例えば１分）を設定し、判別タイミングのタイマをスタートする（ステップ７）。
【００５７】
そして、飲料が販売されたか（ステップ８）、販売頻度の判別タイミングになったか（ステップ９）を監視する。
【００５８】
飲料が販売されたら、ホット飲料かコールド飲料か判断し（ステップ10）、ホット飲料であればカウンタ68のホット飲料系の販売カウンタに販売実績を加算記憶し（ステップ11）、コールド飲料であればカウンタ68のコールド飲料系の販売カウンタに販売実績を加算記憶する（ステップ12）。ここで、販売頻度の判別タイミングに達したかを確認する（ステップ13）。
【００５９】
また、販売頻度の判別タイミングに達したら、単位時間（例えば過去１０分間）の販売数を現在時刻から逆算し、ホット飲料およびコールド飲料の個別、または合計の単位時間当たりの販売頻度を求め、記憶、更新する（ステップ14）。
【００６０】
求められた単位時間当たりの販売頻度が予め定められた最小設定杯数以下（例えば２杯以下）であれば（ステップ15）、最小能力運転モードの運転プログラムＡを設定して実行する（ステップ16）。この場合、上位運転モードから下位運転モードへの切り換え、または同運転モードの継続となる。
【００６１】
求められた単位時間当たりの販売頻度が予め定められた標準設定杯数の範囲内（例えば３〜１９杯）であれば（ステップ17）、標準能力運転モードの運転プログラムＢを設定して実行する（ステップ18）。この場合、上位運転モードから下位運転モード、下位運転モードから上位運転モードへの切り換え、または同運転モードの継続となる。
【００６２】
求められた単位時間当たりの販売頻度が予め定められた標準設定杯数の範囲以上（例えば２０杯以上）であれば、最大能力運転モードの運転プログラムＣを設定して実行する（ステップ19）。この場合、下位運転モードから上位運転モードへの切り換え、または同運転モードの継続となる。
【００６３】
なお、設定部66で共通制御モードが設定されている場合には、ホット飲料およびコールド飲料の合計の販売頻度から、湯沸し装置41および冷却装置52に共通の運転モードを判別して共通に制御する。また、設定部66で個別制御モードが設定されている場合には、ホット飲料およびコールド飲料の個別の販売頻度から、湯沸し装置41および冷却装置52の運転モードを個別に判別して個別に制御する。
【００６４】
その後、ステップ８に戻り、次の販売および次の販売頻度の判別タイミングに待機する。
【００６５】
このように、所定時間毎に単位時間当たりの販売頻度を判別し、この判別頻度に応じた運転モードを判別できるので、販売頻度が低い場合には最小能力運転モードで運転することによって省エネルギを図れ、販売頻度が多くなれば上位の標準能力運転モードや最大能力運転モードに切り換えることによって実際の販売状況にも対応できる。
【００６６】
しかも、ホット飲料およびコールド飲料の個別の販売頻度に応じた湯沸し装置41および冷却装置52の個別の運転モードを判別し、これら運転モードで湯沸し装置41および冷却装置52を個別に制御できるので、湯沸し装置41および冷却装置52の個別のきめ細かい運転制御が可能となり、省エネルギをより図れるとともに、実際の販売状況により対応できる。
【００６７】
さらに、個別制御モードおよび共通制御モードを選択可能とし、個別制御モードを選択すれば、湯沸し装置41および冷却装置52を個別の運転モードで制御し、また、共通制御モードを選択すれば、湯沸し装置41および冷却装置52を共通の運転モードで制御できるので、制御モードを任意に設定でき、実際の販売状況により対応できる。
【００６８】
次に、手動による単独設定パターンについて図７のフローチャートを参照して説明する。
【００６９】
上述した省エネ自動設定では運転モードを自動設定したが、ここでは運転モードを手動で単独設定可能としている。
【００７０】
設定部66で省エネ単独設定を選択すると（ステップ20）、最小能力運転モードの運転プログラムＡを設定して実行する（ステップ21）。
【００７１】
設定部66で標準単独設定を選択すると（ステップ22）、標準能力運転モードの運転プログラムＢを設定して実行する（ステップ23）。
【００７２】
設定部66で最大単独設定を選択すると（ステップ24）、最大能力運転モードの運転プログラムＣを設定して実行する（ステップ25）。
【００７３】
そして、湯タンク25の湯温や冷却装置52による冷却状態などから販売許容状態にあるか判断し（ステップ26）、許容状態になければ売り切れまたは準備中を表示して販売待機状態とする（ステップ27）。この販売待機状態では、設定された運転モードのプログラムにより、湯沸し装置41において湯タンク25の湯水の沸き上げ、冷却装置52において冷却水槽27の冷却水26の冷却を実行する。
【００７４】
販売許容状態になれば、販売中を表示し、貨幣の受け入れを許容する（ステップ28）。
【００７５】
さらに、季節優先モードが選択されているか判断する（ステップ29）。設定部66で季節優先モードが選択されている場合には、カレンダ機能、ホット飲料とコールド飲料の販売比率、環境温度などから夏期と冬期を主体として季節を割り出し、湯沸し装置41および冷却装置52のうち、季節に対応しない側の運転モードを対応する側の運転モードより下位の運転モードに１ランク分下げ、それぞれの運転モードで個別制御する（ステップ30）。例えば、ホット飲料の需要が少なくなる夏期であれば、湯沸し装置41の運転モードを最小能力運転モード側に１ランク下げ、コールド飲料の需要が少なくなる冬期であれば、冷却装置52の運転モードを最小能力運転モード側に１ランク下げる。但し、最小能力運転モードが選択設定されている場合にはそのままとする。そして、各運転プログラムによる運転を行なって、販売実績の監視および蓄積を継続する。
【００７６】
また、季節優先モードが選択されていない場合には、設定部66で選択設定された運転モードの運転プログラムで運転を行なって、販売実績の監視および蓄積を継続する（ステップ31）。
【００７７】
このように、設定部66で任意の運転モードを選択設定できる。しかも、設定部66で選択設定された運転モードを、季節に応じた運転モード側に自動的に変更できるので、省エネルギを図れるとともに、実際の販売状況にも対応できる。
【００７８】
さらに、季節優先モードを任意に設定可能とし、この季節優先モードが未設定のときには設定部66で選択設定された運転モードで運転し、季節優先モードが設定されているときには設定部66で選択された運転モードを季節に応じた運転モード側に自動的に変更するので、季節の制御要因を任意に設定でき、実際の販売状況により対応できる。
【００７９】
次に、時間帯別販売頻度の学習機能を併用した省エネ自動設定パターンについて図８および図９のフローチャートを参照して説明する。
【００８０】
上述した省エネ自動設定の制御に加え、時間帯別販売頻度の学習機能を付加したものである。
【００８１】
設定部66で時間帯別販売頻度の学習機能を併用した省エネ自動設定を選択すると（ステップ32）、前日までの時間帯別販売頻度の蓄積データがあるか判断する（ステップ33）。
【００８２】
まず、前日までの時間帯別販売頻度の蓄積データがない場合について説明する。
【００８３】
蓄積データがない場合には、標準能力運転モードを設定して実行する（ステップ34）。そして、湯タンク25の湯温や冷却装置52による冷却状態などから販売許容状態にあるか判断し（ステップ35）、許容状態になければ売り切れまたは準備中を表示して販売待機状態とする（ステップ36）。この販売待機状態では、標準能力運転モードの運転プログラムＢにより、湯沸し装置41において湯タンク25の湯水の沸き上げ、冷却装置52において冷却水槽27の冷却水26の冷却を実行する。
【００８４】
販売許容状態になれば、販売中を表示し、貨幣の受け入れを許容し、販売頻度を時間帯別に判別する判別サイクル（例えば、日付（曜日）の更新起点時刻から１時間単位で、１時、２時……２３時、２４時となる）を設定して時間帯別タイマをスタートする（ステップ37）。
【００８５】
そして、飲料が販売されたか（ステップ38）、時間帯別の単位時間経過したか（ステップ39）を監視する。
【００８６】
飲料が販売されたら、ホット飲料かコールド飲料か判断し、ホット飲料であればカウンタ68のホット飲料系の販売カウンタに販売実績を加算記憶し、コールド飲料であればカウンタ68のコールド飲料系の販売カウンタに販売実績を加算記憶する（ステップ40）。さらに、時間帯別の単位時間経過したか確認する（ステップ41）。
【００８７】
時間帯別の単位時間経過したら、経過した時間帯の販売数が予め定められた標準所定数以下か以上か判断し（ステップ42）、以下であれば最小能力運転モードに切り換え（ステップ43）、以上であれば最大能力運転モードに切り換える（ステップ44）。
【００８８】
さらに、販売の許容から２４時間経過したか判断し（ステップ45）、経過していなければ日付（曜日）の更新起点時刻か判断する（ステップ46）。
【００８９】
日付（曜日）の更新起点時刻でなければ、次の時間帯での販売実績の監視および蓄積を継続する。日付（曜日）の更新起点時刻であれば、日付（曜日）を繰り上げ、次の時間帯での販売実績の監視および蓄積を継続する（ステップ47）。
【００９０】
このように時間帯別の販売実績の監視および蓄積を継続していって、販売の許容から２４時間経過したら、１日分（２４時間分）の時間帯別販売頻度から、例えばオフィスの始業時、昼食時および休憩時間などの短時間に販売が集中する販売頻度のピーク時間帯（所定数以上の時間帯）を判断して、本日のピーク対応の要否を判別する（ステップ48）。
【００９１】
次に、ステップ33で、前日までの時間帯別販売頻度の蓄積データがある場合について説明する。
【００９２】
日付（曜日）の更新起点時刻か判断し（ステップ49）、日付（曜日）の更新起点時刻でなければ、湯タンク25の湯温や冷却装置52による冷却状態などから販売許容状態にあるか判断し（ステップ50）、許容状態になければ売り切れまたは準備中を表示して販売待機状態とする（ステップ51）。この販売待機状態では、例えば最小能力運転モードの運転プログラムＡにより、湯沸し装置41において湯タンク25の湯水の沸き上げ、冷却装置52において冷却水槽27の冷却水26の冷却を実行する。
【００９３】
販売許容状態になれば、販売中を表示し、貨幣の受け入れを許容する（ステップ52）。
【００９４】
前日までの時間帯別販売頻度の蓄積データから、例えばオフィスの始業時、昼食時および休憩時間などの短時間に販売が集中する販売頻度のピーク時間帯（所定数以上の時間帯）を判断して、本日の時間帯別のピーク対応の要否を判断する（ステップ53）。
【００９５】
ここで、本日の時間帯別のピーク対応がなければ、図５および図６で説明した当日の販売頻度による自動設定パターンによって運転制御し、販売実績の監視および蓄積を継続する（ステップ54）。
【００９６】
また、本日の時間帯別のピーク対応がある場合には、ピーク時間帯の所定時間前になったか判断し（ステップ55）、所定時間前になるまでは当日の販売頻度による自動設定パターンによって運転制御する（ステップ56）。
【００９７】
ピーク時間帯の所定時間前になったら、最大能力運転モードに強制的に切り換え（ステップ57）、最大能力運転モードの運転プログラムＣにより、湯沸し装置41において湯タンク25の湯水の沸き上げ、冷却装置52において冷却水槽27の冷却水26の冷却を実行する。
【００９８】
最大能力運転モードに強制的に切り換えられた時点から所定時間経過したら（ステップ58）、当日の販売頻度による自動設定パターンによる運転制御に復帰させる（ステップ59）。
【００９９】
さらに、本日分で、次の時間帯別のピーク対応があるか判断し（ステップ60）、あれば、ピーク時間帯の所定時間前になるまで当日の販売頻度による自動設定パターンによって運転制御し、販売実績の監視および蓄積を継続する。
【０１００】
本日分のピーク対応が終了したら、ステップ49に戻り、日付（曜日）の更新起点時刻か判断する。日付（曜日）の更新起点時刻になるまでは、当日の販売頻度による自動設定パターンによって運転制御し、販売実績の監視および蓄積を継続する。
【０１０１】
また、日付（曜日）の更新起点時刻になれば、前日の時間帯別販売頻度のデータを最古のデータと入れ換えて１週間分のデータを保有する（ステップ61）。
【０１０２】
１週間分の時間帯別販売頻度のデータから、本日分の時間帯別販売頻度を割り出し、この本日分の時間帯別販売頻度が前日までの時間帯別販売頻度に対して変動（所定値以上の変動）があるか判断する（ステップ62）。
【０１０３】
変動（所定値以上の変動）がない場合、例えば月曜日から火曜日など、平日から平日への曜日の更新であるとき、上述のステップ50に進む。
【０１０４】
変動（所定値以上の変動）がある場合、休日などの対象パターンか判断し（ステップ63）、時間帯別販売頻度が前日までに比べて増加するときには、例えば日曜日から月曜日への曜日の更新であるとし、上述のステップ50に進む。
【０１０５】
時間帯別販売頻度が前日までに比べて低減するときには、例えば金曜日から土曜日、土曜日から日曜日への曜日の更新であるとし、休日と判断する。なお、土曜日および日曜日が休日の場合には、日曜日は土曜日との時間帯別販売頻度の変動がないか少ないが、時間帯別販売頻度の比較対象を前日までとし、すなわち土曜日以前も含むことで、休日と判断可能とする。
【０１０６】
そして、休日と判断されれば、最小能力運転モードを設定する（ステップ64）。湯タンク25の湯温や冷却装置52による冷却状態などから販売許容状態にあるか判断し（ステップ65）、許容状態になければ売り切れまたは準備中を表示して販売待機状態とし（ステップ66）、販売許容状態になれば、販売中を表示し、貨幣の受け入れを許容し（ステップ67）、ステップ54へ進み、当日の販売頻度による自動設定パターンによって運転制御し、販売実績の監視および蓄積を継続する。
【０１０７】
このように、通常は販売頻度に応じた運転モードで運転することで、省エネルギを可能とし、また、時間帯別販売頻度から、短時間に販売が集中するピーク時間帯を予測し、そのピーク時間帯の前に対応して最大能力運転モードで運転することで、販売が追い付かずに売り切れとなったり販売回復待ち時間が長くかかるのを防止でき、したがって、省エネルギを図れるとともに、実際の販売状況にも対応できる。
【０１０８】
さらに、複数のピーク時間帯を判断し、複数の各ピーク時間帯に対応して最大能力運転モードで運転することで、実際の販売状況により対応できる。
【０１０９】
さらに、少なくとも１週間分の時間帯別販売頻度の蓄積データから、例えば休日などの販売頻度の低い日を予測し、その販売頻度の低い日に対応して最小能力運転モードで運転することで、省エネルギを図れるとともに、実際の販売状況にも対応できる。
【０１１０】
以上のように、本実施の形態の自動販売機は、ホット飲料とコールド飲料の販売比率、ピーク時間帯、休日などに対応して、省エネルギを図れるとともに、実際の販売状況にも十分に対応できる。
【０１１１】
なお、前記実施の形態では、湯沸し装置41および冷却装置52の運転制御について説明したが、製氷装置32についても、例えば氷の満配状態から最小状態までの所定量を製氷する運転制御を、冷却装置52と同様に実施することができ、同様の作用効果を得ることができる。
【０１１２】
また、前記実施の形態では、ホット飲料の需要が少なくなる夏期であれば、湯沸し装置41の運転モードを最小能力運転モード側に１ランク下げ、コールド飲料の需要が少なくなる冬期であれば、冷却装置52の運転モードを最小能力運転モード側に１ランク下げたが、逆に、コールド飲料の需要が増加する夏期に冷却装置52の運転モードを最大能力運転モード側に１ランク上げ、ホット飲料の需要が増加する冬期に湯沸し装置41の運転モードを最大能力運転モード側に１ランク上げるようにしてもよく、それらの両方を適用してもよい。
【０１１３】
また、前記実施の形態では、ホット飲料およびコールド飲料の両方を販売する自動販売機について説明したが、ホット専用あるいはコールド専用の自動販売機の場合でも、同様の作用効果を得ることができる。
【０１１４】
また、自動販売機の販売商品は、カップ式飲料に限らず、缶飲料でもよく、あるいは他の飲食物などでよく、同様の作用効果を得ることができる。
【０１１５】
【発明の効果】
請求項１記載の自動販売機によれば、通常は販売頻度に応じた運転モードで運転することで、省エネルギを可能とし、また、時間帯別の販売頻度から、短時間に販売が集中するピーク時間帯を予測し、そのピーク時間帯に対応して最大能力運転モードで運転することで、販売が追い付かずに売り切れとなったり販売回復待ち時間が長くかかるのを防止でき、したがって、省エネルギを図れるとともに、実際の販売状況にも対応できる。
【０１１６】
請求項２記載の自動販売機によれば、請求項１記載の自動販売機の効果に加えて、複数のピーク時間帯を判断し、複数の各ピーク時間帯に対応して最大能力運転モードで運転することで、実際の販売状況に対応できる。
【０１１７】
請求項３記載の自動販売機によれば、請求項１または２記載の自動販売機の効果に加えて、少なくとも１週間分の時間帯別の販売頻度の記憶から、販売頻度の低い日を判断し、販売頻度の低い日に対応して最小能力運転モードで運転することで、省エネルギを図れるとともに、実際の販売状況にも対応できる。
【０１１８】
請求項４記載の自動販売機によれば、運転モード選択手段で選択された運転モードを、季節に応じた運転モード側に自動的に変更するので、省エネルギを図れるとともに、実際の販売状況にも対応できる。しかも、季節優先モードが未設定のときには運転モード選択手段で選択された運転モードで運転し、季節優先モードが設定されているときには運転モード選択手段で選択された運転モードを季節に応じた運転モード側に自動的に変更するので、季節の制御要因を任意に設定でき、実際の販売状況に対応できる。
【０１１９】
請求項５記載の自動販売機によれば、加熱商品および冷却商品の個別の販売頻度に応じた加熱運転および冷却運転の個別の運転モードを判別し、これら運転モードで加熱運転および冷却運転を個別に制御するので、省エネルギを図れるとともに、実際の販売状況にも対応できる。しかも、個別制御モードを選択すれば、加熱運転および冷却運転を個別の運転モードで制御し、また、共通制御モードを選択すれば、加熱運転および冷却運転を共通の運転モードで制御するので、制御モードを任意に設定でき、実際の販売状況に対応できる。
【図面の簡単な説明】
【図１】 本発明の一実施の形態を示す自動販売機の制御構成図である。
【図２】 同上自動販売機の構成図である。
【図３】 同上湯タンクの構成図である。
【図４】 同上冷却水槽の構成図である。
【図５】 同上当日の販売頻度による自動設定パターンについてのフローチャートである。
【図６】 同上図５に続くフローチャートである。
【図７】 同上図５に続く、手動による単独設定パターンについてのフローチャートである。
【図８】 同上図７に続く、時間帯別販売頻度の学習機能を併用した省エネ自動設定パターンについてのフローチャートである。
【図９】 同上図８に続くフローチャートである。
【符号の説明】
64 運転モード記憶手段および時間帯別販売頻度記憶手段としての記憶部
65 販売頻度判別手段、運転モード判別手段、判断手段および季節判別手段としての演算回路
66 運転モード選択手段、季節優先モード選択手段および制御モード選択手段としての設定部
67 制御手段としての運転制御装置[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vending machine for the purpose of energy saving.
[0002]
[Prior art]
Conventionally, for example, in a cup dispenser or cup-type beverage vending machine that pours and provides beverage liquid into a cup, a beverage diluted by mixing beverage ingredients with hot water or cold water is poured into the cup, In a canned beverage vending machine, the canned beverage is heated or cooled.
[0003]
Such vending machines are equipped with a heating device and cooling device, but the heating device and cooling device are always kept at a specified temperature, even though there are days of the week and times of day when sales are less frequent, such as holidays and nights. Since the device is operated, a lot of energy is wasted.
[0004]
For this reason, by setting a timer in advance according to the day of the week or time of day when sales are less frequent, the operation is stopped and the minimum capacity operation (hereinafter referred to as energy-saving operation) is performed to save energy (power saving). ing. However, setting and changing the date and time with a timer is troublesome, and setting the date and time to stop operation or perform energy-saving operation uniformly may not match the actual sales situation.
[0005]
Further, for example, as in a beverage vending machine described in JP-A-7-57141, the sales interval is monitored, and if there is a next sale within a certain time from the previous sale, the normal operation is performed. If there is no next sale within a certain time from the previous sale, the energy saving operation can be performed by switching to the energy saving operation.
[0006]
Further, like the vending machine described in Japanese Patent Publication No. 2721801, the sales frequency is stored for each time zone, and the average value of the sales frequency for each week is calculated for one week, and this calculation is performed. Further, the operation is switched according to the average value of the sales frequency for each time zone, and the energy saving operation according to the sales situation can be performed by switching the time zone having a small average value to the energy saving operation.
[0007]
[Problems to be solved by the invention]
However, in the beverage vending machine described in Japanese Patent Application Laid-Open No. 7-57141, since the operation is switched according to the sales interval, after the energy-saving operation has continued for a long time, for example, at the start of the office, lunch, and rest time When sales are concentrated in a short period of time, there is a problem that the sales cannot keep up and it is likely to be sold out or it takes a long time to wait for the sales to recover, and the actual sales situation cannot be fully handled.
[0008]
In addition, in the vending machine described in Japanese Patent Publication No. 2721801, since the operation is switched according to the average value of the sales frequency for each week for one week, for example, when sales are concentrated in the energy saving operation hours However, irregular sales tend to be sold out without catching up, and conversely, there are cases where sales are less in times other than energy-saving operation hours, and there is a problem that the actual sales situation cannot be fully handled.
[0009]
In addition, when selling both heated beverages (hot beverages) and cooled beverages (cold beverages) with one vending machine, depending on the total sales situation of sales of heated beverages and sales of cooled beverages together Therefore, even if sales of heated beverages decline in the summer and sales of cooled beverages decline in the winter, sales of cooled beverages increase in the summer and heat in the winter. Due to the increase in beverage sales, there is a problem that energy saving operation is not necessarily performed and energy saving according to the sales situation is not sufficiently performed.
[0010]
This invention is made | formed in view of such a point, and aims at providing a vending machine which can respond to an actual sales situation while aiming at energy saving.
[0011]
[Means for Solving the Problems]
The vending machine according to claim 1, wherein the vending machine performs at least one of a heating operation and a cooling operation and sells at least one of a heated product and a cooled product, and includes a plurality of at least a minimum capacity operation mode and a maximum capacity operation mode. The operation mode storage means for storing the operation mode, the sales frequency determination means for determining the sales frequency per unit time every predetermined time, and the sales frequency determination among the operation modes stored in the operation mode storage means From the storage contents of the operation mode determination means for determining the operation mode according to the sales frequency determined by the means, the sales frequency storage means by time zone for storing the sales frequency by time zone, and the sales frequency storage means by time zone A determination means for determining a peak time zone of the sales frequency, and driving in the operation mode determined by the operation mode determination means; , In which and a control means for operating at full capacity operation mode in response to the peak time zone it is determined by the determining means.
[0012]
With this configuration, it is possible to save energy by operating in the operation mode according to the sales frequency, and predict the peak time zone where sales are concentrated in a short time from the sales frequency by time zone. By operating in the maximum capacity operation mode corresponding to the peak time zone, it is possible to prevent the sales from being sold out and to wait for a long time for sales recovery. The sales situation can also be handled.
[0013]
The vending machine according to claim 2 is the vending machine according to claim 1, wherein the judging means judges a plurality of peak time zones, and the control means judges each of the plurality of peak time zones judged by the judging means. Is operated in the maximum capacity operation mode.
[0014]
With this configuration, a plurality of peak time zones are determined, and an actual sales situation can be handled by operating in the maximum capacity operation mode corresponding to each of the plurality of peak time zones.
[0015]
The vending machine according to claim 3 is the vending machine according to claim 1 or 2, wherein the sales frequency storage unit by time zone stores the sales frequency by time zone for at least one week, A date with a low sales frequency is determined from the stored contents of the sales frequency storage unit by time zone, and the control unit is operated in the minimum capacity operation mode corresponding to the day with the low sales frequency determined by the determination unit. At the same time, when the peak time zone is judged by the judgment means on the day with low sales frequency, the vehicle is operated in the maximum capacity operation mode. Is.
[0016]
And by this structure, the low frequency sales day, such as a holiday, is judged from the storage of the sales frequency by time zone for at least one week, and the operation is performed in the minimum capacity operation mode corresponding to the low sales frequency day. This makes it possible to save energy and to deal with actual sales conditions.
[0017]
Contract Claim 4 The vending machines listed are In a vending machine that performs at least one of a heating operation and a cooling operation and sells at least one of a heating product and a cooling product, any one of a plurality of operation modes including at least a minimum capacity operation mode and a maximum capacity operation mode An operation mode selection means for selecting the season, a season determination means for determining the season, Season priority mode selection means to select season priority mode When , By the season priority mode selection means When season priority mode is not set Said When operating in the operation mode selected by the operation mode selection means and the season priority mode is set Said For the operation mode selected by the operation mode selection means Said Change to the operation mode according to the season determined by the season determination means and drive in that operation mode Control means Is.
[0018]
And with this configuration, Since the operation mode selected by the operation mode selection means is automatically changed to the operation mode according to the season, it is possible to save energy and cope with the actual sales situation. For example, the heating operation is changed to the minimum capacity mode side in the summer season when sales of the heated products decrease, and the cooling operation is changed to the minimum capacity mode side in the winter season when the sales of cooling products decrease. Conversely, if the sales of cooling products increase during the summer, the cooling operation may be changed to the maximum capacity mode, and if the sales of heating products increase during the winter, the cooling operation may be changed to the maximum capacity mode. Make it possible. When the season priority mode is not set, operation is performed in the operation mode selected by the operation mode selection means. When the season priority mode is set, the operation mode selected by the operation mode selection means is changed to the operation mode side according to the season. Since it changes automatically, the seasonal control factor can be set arbitrarily, and the actual sales situation can be handled.
[0019]
Contract Claim 5 The vending machines listed are An operation mode storage means for storing a plurality of operation modes including at least a minimum capacity operation mode and a maximum capacity operation mode in a vending machine that performs heating operation and cooling operation and sells heated products and cooling products; Control mode selection means for selecting one of an individual control mode for heating operation and cooling operation and a common control mode for heating operation and cooling operation When , When the individual control mode is selected, the individual sales frequency of the heating product and the cooling product per unit time is determined every predetermined time. When the common control mode is selected, the heating product and the cooling product per unit time are determined every predetermined time. Sales frequency determining means for determining the total sales frequency, and When individual control mode is selected Is determined by the sales frequency determining means from the operation modes stored in the operation mode storage means. Discriminating individual operation modes of heating and cooling operations according to the sales frequency of heating products and cooling products And said When the common control mode is selected Is determined by the sales frequency determining means from the operation modes stored in the operation mode storage means. Determines the common operation mode for heating and cooling operations according to the total sales frequency of heating and cooling products Operating mode discriminating means, and When individual control mode is selected Is the individual operation mode determined by the operation mode determination means. Separate heating and cooling operations System You And said When the common control mode is selected Is the common operation mode determined by the operation mode determination means. Common heating and cooling operations System Control Control means Is.
[0020]
And with this configuration, Since the individual operation modes of the heating operation and the cooling operation according to the sales frequency of the heating product and the cooling product are discriminated and the heating operation and the cooling operation are individually controlled in these operation modes, it is possible to save energy and actually It is possible to cope with the sales situation. If the individual control mode is selected, the heating operation and the cooling operation are controlled in the individual operation modes, and if the common control mode is selected, the heating operation and the cooling operation are controlled in the common operation mode. It can be set arbitrarily and can be adapted to the actual sales situation.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a vending machine according to the present invention will be described with reference to the drawings.
[0022]
FIG. 2 shows a block diagram of a cup-type beverage vending machine. The vending machine comprises a bend stage 11 to which a cup for drinking beverage is supplied, a raw material supply device 12 for supplying beverage ingredients, and hot water for supplying hot water. It has a supply device 13, a cold water supply device 14 for supplying cold water, and an ice supply device 15 for supplying ice.
[0023]
The raw material supply device 12 includes a plurality of canisters 21 and 22 that store powdered raw materials for beverages and a raw material bag 23 that stores liquid raw materials for beverages. Each canister 21 contains powder materials for various beverages and powder materials such as sugar and cream, and a fixed amount of each material is sent from each canister 21 and supplied to the cup of the bend stage 11. Each canister 22 contains a coffee raw material. A fixed amount of the raw material is sent from each canister 22 and supplied to the coffee blower 24 and the hot water supplied from the hot water supply device 13 is mixed and then the cup of the bend stage 11 is mixed. To be supplied. The raw material in the raw material bag 23 is cooled via the cold water supply device 14 and supplied to the cup of the bend stage 11 in a fixed amount.
[0024]
The hot water supply device 13 has a hot water tank 25 for storing water supplied from a water source such as tap water and boiling and storing the water at a predetermined temperature, and the hot water in the hot water tank 25 is used for a cup of the bend stage 11 or coffee. Supplied to the blower 24.
[0025]
The chilled water supply device 14 has a cooling water tank 27 for storing the cooling water 26, a cooling coil 28 is disposed in the cooling water 26 of the cooling water tank 27, and water from the water source is sent to the cooling coil 28 by the water pump 29. Then, while passing through the cooling coil 28, heat is exchanged with the cooling water 26 to be cooled, and the cooled cold water is supplied to the cup of the bend stage 11. Further, a carbonated water container 30 is disposed in the cooling water 26, and the carbonated water container 30 is supplied with carbon dioxide gas from a part of the cold water that has passed through the cooling coil 28 and the carbonated cylinder 31 to create carbonated water, This carbonated water is supplied to the cup of the bend stage 11. Further, the liquid raw material supply path from the raw material bag 23 is passed through the cooling water 26 to be cooled.
[0026]
The ice supply device 15 has an ice making device 32 that receives the supply of water from a water source to make ice, and the ice made by the ice making device 32 is supplied to the cup of the bend stage 11.
[0027]
Although not shown in the figure, the vending machine includes a cup supply device for supplying cups, a cup transfer for receiving the cups from the cup supply device and transferring them to the powder raw material receiving position from each canister 21, the bend stage 11, etc. The device is built-in.
[0028]
Then, when the beverage sales are started, when a beverage corresponding to the type of the powder raw material stored in the canister 21 is selected, the cup is received from the cup supply device by the cup transport device and the cup is handled. After conveying the powder raw material from the canister 21 to the receiving position of the powder raw material in the cup at the receiving position, the cup is conveyed to the bend stage 11 by the cup conveying device, and hot water or cold water is used as a diluent for the bend stage 11 The beverage is prepared by supplying the cup and stirring the raw material and the diluted solution in the cup by the impeller mechanism 33 disposed on the bend stage 11. In addition, when a beverage corresponding to the raw material stored in the canister 22 or the raw material bag 23 is selected, the cup is received from the cup supply device by the cup transport device and the cup is transported to the bend stage 11, and the canister 22 or Ingredients are fed out from the ingredient bag 23 and supplied to the cup, hot water, cold water or carbonated water is supplied to the cup as a diluent, and if necessary, the ingredients and the diluent in the cup are agitated by the impeller mechanism 33 to create a beverage. .
[0029]
Next, FIG. 3 shows a configuration diagram of the hot water supply device 13, and an upper heater 42a and a lower heater 42b for hot water boiling device 41 for boiling hot water are disposed above and below the hot water tank 25, respectively. An upper sensor 43a and a lower sensor 43b for detecting the temperature of the upper and lower layers in the hot water tank 25 are provided. On the upper side of the hot water tank 25, a hot water valve 44 for supplying hot water of the upper layer to the bend stage 11 and the like is disposed.
[0030]
Next, FIG. 4 shows a configuration diagram of the chilled water supply device 14. The chilled water supply device 14 employs a water-cooled heat storage system, and a coiled evaporator 51 is disposed in the cooling water 26 of the cooling water tank 27. Both ends of the evaporator 51 are connected to the cooling device 52. The cooling device 52 has a refrigerant circuit 56 in which a compressor 53, an evaporator 54, and a capillary tube 55 are interposed. Then, by the operation of the cooling device 52, the cooling water 26 is cooled through the evaporator 51, and ice I having a predetermined thickness is formed on the surface of the evaporator 51.
[0031]
An agitator 57 is disposed inside the evaporator 51. When the agitator 57 is rotated by an agitator motor 58, the cooling water 26 is circulated and the cooling coil 28 is efficiently cooled.
[0032]
In the cooling water 26, an ice thickness detection sensor 59 for detecting the thickness of the ice I stored in the evaporator 51 and a water temperature sensor 60 for detecting the water temperature of the cooling water 26 are disposed.
[0033]
Next, FIG. 1 shows a control configuration diagram of the vending machine. 61 is a control device for controlling the entire vending machine. The control device 61 includes a sales control device 62, a timer 63, a storage unit 64, an arithmetic circuit 65. A setting unit 66 and an operation control device 67.
[0034]
The sales control device 62 controls money management such as identification of coins, change of coins, etc., beverage creation processing, sales and preparations, and sales management such as sold out.
[0035]
The timer 63 outputs time data to the arithmetic circuit 65.
[0036]
The storage unit 64 functions as sales frequency storage means and hourly sales frequency storage means, and has a counter 68. The counter 68 is a sales signal when a beverage is sold by the sales control device 62. Thus, a hot beverage as a heated product and a cold beverage as a cooled product are individually added and counted. Then, under the control of the arithmetic circuit 65, the sales frequency per unit time is stored every predetermined time, for example, the sales frequency for the past 10 minutes every minute, and for example, every hour of the week for each hour. Memorize sales frequency.
[0037]
The storage unit 64 has a function of an operation mode storage unit. In the function of the operation mode storage unit, the minimum capacity operation mode (energy saving operation mode) for the operation of the water heater 41 and the cooling device 52 (heating operation and cooling operation). ), Operation programs A, B, and C for the operation modes of the standard operation mode (intermediate capacity operation mode) and the maximum capacity operation mode are stored. The contents of these operation programs A, B, and C are set as shown in Table 1 below.
[0038]
[Table 1]

[0039]
That is, in the water heater 41, the operation of the upper heater 42a of the hot water tank 25 is controlled so as to keep the hot water temperature in the upper layer of the hot water tank 25 low in the minimum capacity operation mode and high in the maximum capacity operation mode. The operation of the lower heater 42b of the tank 25 is controlled so as to always stop in the minimum capacity operation mode and keep the hot water temperature below the hot water tank 25 high in the maximum capacity operation mode. Further, in the cooling device 52, the operation of the compressor 53 is controlled by the water temperature of the cooling water 26 in the minimum capacity operation mode, and controlled by the ice storage condition in the maximum capacity operation mode, and the operation of the agitator motor 58 is In the minimum capacity operation mode, the operation is stopped except when the compressor 53 is operated and when cold beverages are sold, and in the maximum capacity operation mode, the operation is controlled to be continuous. Further, the standard operation mode is controlled to an intermediate operation capacity between the minimum capacity operation mode and the maximum capacity operation mode.
[0040]
Further, the arithmetic circuit 65 has a function of sales frequency determination means, a function of operation mode determination means, a function of determination means, and a function of season determination means for determining the season.
[0041]
In the function of the sales frequency discriminating means, the individual sales frequency of the hot beverage and the cold beverage per unit time is discriminated from the data of the timer 63 and the counter 68 every predetermined time. This sales frequency is, for example, the past 10 minutes every minute.
[0042]
In the function of the operation mode determination means, the operation mode corresponding to the sales frequency determined by the function of the sales frequency determination means is determined from the operation modes stored in the storage unit 64. For example, if the sales frequency is 2 cups or less, it is determined as the operation program A in the minimum capacity operation mode, and if the sales frequency is 3 to 19 cups or less, it is determined as the operation program B in the standard capacity operation mode. If it is more than the cup, it is determined as the operation program C in the maximum capacity operation mode. The operation mode may be individually determined for the water heater 41 and the cooling device 52 based on the individual sales frequencies of the hot beverage and the cold beverage, or the water heater 41 and the cooling device may be determined based on the total sales frequency of the hot beverage and the cold beverage. The operation modes common to 52 may be determined, and these are set by selection of the individual control mode and the common control mode by the setting unit 66.
[0043]
In the function of the judging means, the peak time zone of the sales frequency is judged from the sales frequency classified by time zone stored in the counter 68, and the day with the low sales frequency is determined from the sales frequency classified by time zone for one week stored in the counter 68. Judging. As for the peak time zone, for example, when there are a plurality of time zones having a sales frequency of a predetermined number or more, a plurality of peak time zones are determined.
[0044]
The function of the season discrimination means discriminates the season mainly in summer and winter, and any one or a combination of calendar function, sales ratio of hot and cold beverages, environmental temperature, etc. Set Use to determine automatically.
[0045]
The setting unit 66 performs various settings, and includes a function of operation mode selection means for selecting any one of the minimum capacity operation mode, the standard capacity operation mode, and the maximum capacity operation mode, and the season priority mode. Function of selecting season priority mode selection means to select, individual control mode of water heater 41 and cooling device 52, and function of control mode selection means for selecting one of common control modes of water heater 41 and cooling device 52 In addition, it has other setting functions.
[0046]
The operation control device 67 controls the water heater 41, the cooling device 52, and the ice making device 32, and has a function of a control means, and the function of the control means is configured as follows.
[0047]
Usually, the operation is performed in the operation mode determined by the function of the operation mode determination means of the arithmetic circuit 65, and the operation is performed in the maximum capacity operation mode corresponding to the peak time period determined by the function of the determination means of the arithmetic circuit 65. The operation is performed in the minimum capacity operation mode corresponding to the low sales frequency date determined by the function of the determination means of the arithmetic circuit 65.
[0048]
When the season priority mode by the setting unit 66 is not set, the operation mode selected by the function of the operation mode selection means of the calculation circuit 65 is operated. When the season priority mode by the setting unit 66 is set, the calculation circuit 65 is operated. The operation mode selected by the function of the mode selection means is changed to the operation mode side corresponding to the season determined by the function of the season determination means of the arithmetic circuit 65 and is operated in that operation mode. For example, in the summer when demand for hot beverages decreases, the operation mode of the water heater 41 is lowered by one rank to the minimum capacity operation mode side, and in the winter when demand for cold beverages decreases, the operation mode of the cooling device 52 is changed. Move down one rank to the minimum capacity operation mode.
[0049]
The heating operation and the cooling operation are individually controlled in the operation mode determined by the function of the operation mode determination means of the arithmetic circuit 65.
When the setting unit 66 selects the individual control mode, the water heater 41 and the cooling device 52 are controlled in the individually determined operation mode, and when the setting unit 66 selects the common control mode, the water heater 41 and the cooling device 52 are commonly used. Control is performed in the determined operation mode.
[0050]
Next, the operation control will be described with reference to the flowcharts of FIGS.
[0051]
The operation control setting patterns include an energy saving automatic setting pattern based on the sales frequency of the day, a manual single setting pattern, and an energy saving automatic setting pattern using a learning function of the sales frequency for each time zone. Each pattern will be described in order.
[0052]
First, the automatic setting pattern based on the sales frequency of the day will be described with reference to the flowcharts of FIGS.
[0053]
When the energy saving automatic setting is set in the setting unit 66 (step 1), it is determined whether the sales allowance state is reached from the hot water temperature of the hot water tank 25 or the cooling state by the cooling device 52 (step 2). A display arranged on the front face of the vending machine displays a sold-out or ready state and enters a sales standby state (step 3). In this sales standby state, the water heater 41 boils the hot water in the hot water tank 25, and the cooling device 52 performs the cooling of the cooling water 26 in the cooling water tank 27. At this time, the operation control of the water heater 41 and the cooling device 52 is performed. The operation program A is in the minimum capacity operation mode.
[0054]
When the sales allowance state is reached, the sale is displayed and the acceptance of money is allowed (step 4).
[0055]
Further, it is determined whether the setting is controlled in common with the total sales frequency of the hot beverage and the cold beverage (step 5). When the common control mode is set in the setting unit 66, the operation mode common to the water heater 41 and the cooling device 52 is determined based on the total sales frequency of the hot beverage and the cold beverage, and the common control mode is controlled. To do. When the individual control mode is set in the setting unit 66, the operation mode of the water heater 41 and the cooling device 52 is individually determined and individually controlled based on the individual sales frequencies of the hot beverage and the cold beverage. (Step 6). In the flowchart of the drawing, the hot beverage is represented as H and the cold beverage is represented as C.
[0056]
Further, a discrimination cycle (for example, 1 minute) for discriminating the sales frequency every predetermined time is set, and a discrimination timing timer is started (step 7).
[0057]
Then, it is monitored whether the beverage has been sold (step 8) or whether the sales frequency determination timing has come (step 9).
[0058]
When the beverage is sold, it is determined whether it is a hot beverage or a cold beverage (step 10). If it is a hot beverage, the sales record is added and stored in the hot beverage sales counter of the counter 68 (step 11). The sales record is added and stored in the cold beverage sales counter of the counter 68 (step 12). Here, it is confirmed whether the sales frequency determination timing has been reached (step 13).
[0059]
When the sales frequency determination timing is reached, the number of sales per unit time (for example, the past 10 minutes) is calculated backward from the current time, and the sales frequency per unit time of the hot beverage and cold beverage is calculated or stored. Update (step 14).
[0060]
If the obtained sales frequency per unit time is less than or equal to a predetermined minimum set number of cups (for example, 2 cups or less) (step 15), the operation program A in the minimum capacity operation mode is set and executed (step 16). ). In this case, switching from the upper operation mode to the lower operation mode or the continuation of the operation mode is performed.
[0061]
If the obtained sales frequency per unit time is within a predetermined standard set number of cups (for example, 3 to 19 cups) (step 17), the operation program B in the standard capacity operation mode is set and executed. (Step 18). In this case, switching from the upper operation mode to the lower operation mode, switching from the lower operation mode to the upper operation mode, or continuing the operation mode.
[0062]
If the obtained sales frequency per unit time is not less than a predetermined standard set number of cups (for example, 20 cups or more), the operation program C for the maximum capacity operation mode is set and executed (step 19). In this case, the operation mode is switched from the lower operation mode to the upper operation mode, or the operation mode is continued.
[0063]
When the common control mode is set in the setting unit 66, the common operation mode is determined for the hot water heater 41 and the cooling device 52 based on the total sales frequency of the hot beverage and the cold beverage and controlled in common. . Further, when the individual control mode is set in the setting unit 66, the operation modes of the water heater 41 and the cooling device 52 are individually determined and controlled individually based on the individual sales frequencies of the hot beverage and the cold beverage. .
[0064]
Thereafter, the process returns to step 8 and waits at the timing for determining the next sale and the next sale frequency.
[0065]
As described above, the sales frequency per unit time can be determined every predetermined time, and the operation mode corresponding to the determination frequency can be determined. Therefore, when the sales frequency is low, it is possible to save energy by operating in the minimum capacity operation mode. If the sales frequency increases, the actual sales situation can be dealt with by switching to the higher standard capacity operation mode or maximum capacity operation mode.
[0066]
Moreover, since the individual operation modes of the water heater 41 and the cooling device 52 according to the individual sales frequency of the hot beverage and the cold beverage can be determined and the water heater 41 and the cooling device 52 can be individually controlled in these operation modes, Individual and detailed operation control of the device 41 and the cooling device 52 becomes possible, energy saving can be further achieved, and the actual sales situation can be dealt with.
[0067]
Furthermore, the individual control mode and the common control mode can be selected. If the individual control mode is selected, the water heater 41 and the cooling device 52 are controlled in individual operation modes, and if the common control mode is selected, the water heater is selected. Since 41 and the cooling device 52 can be controlled in a common operation mode, the control mode can be arbitrarily set and can be dealt with according to the actual sales situation.
[0068]
Next, the manual single setting pattern will be described with reference to the flowchart of FIG.
[0069]
In the energy saving automatic setting described above, the operation mode is automatically set, but here, the operation mode can be manually set independently.
[0070]
When the energy saving single setting is selected in the setting unit 66 (step 20), the operation program A in the minimum capacity operation mode is set and executed (step 21).
[0071]
When the standard single setting is selected by the setting unit 66 (step 22), the operation program B in the standard capacity operation mode is set and executed (step 23).
[0072]
When the maximum single setting is selected by the setting unit 66 (step 24), the operation program C in the maximum capacity operation mode is set and executed (step 25).
[0073]
Then, it is determined whether or not the sale is permitted from the hot water temperature of the hot water tank 25 or the cooling state by the cooling device 52 (step 26). 27). In this sales standby state, the hot water boiling device 41 boils hot water in the hot water tank 25 and the cooling device 52 cools the cooling water 26 in the cooling water tank 27 according to the set operation mode program.
[0074]
When the sales allowance state is reached, the sale is displayed and money is accepted (step 28).
[0075]
Further, it is determined whether or not the season priority mode is selected (step 29). When the season priority mode is selected in the setting unit 66, the season is determined mainly in the summer and winter seasons from the calendar function, the sales ratio of hot and cold beverages, the environmental temperature, etc., and the water heater 41 and the cooling device 52 Among them, the operation mode on the side not corresponding to the season is lowered by one rank to the operation mode lower than the operation mode on the corresponding side, and individual control is performed in each operation mode (step 30). For example, in the summer when demand for hot beverages decreases, the operation mode of the water heater 41 is lowered by one rank to the minimum capacity operation mode side, and in the winter when demand for cold beverages decreases, the operation mode of the cooling device 52 is changed. Move down one rank to the minimum capacity operation mode. However, if the minimum capacity operation mode is selected and set, it is left as it is. And the driving | operation by each driving | operation program is performed and monitoring and accumulation | storage of a sales performance are continued.
[0076]
If the season priority mode is not selected, operation is performed with the operation program of the operation mode selected and set by the setting unit 66, and monitoring and accumulation of sales performance is continued (step 31).
[0077]
As described above, the setting unit 66 can select and set an arbitrary operation mode. In addition, since the operation mode selected and set by the setting unit 66 can be automatically changed to the operation mode according to the season, it is possible to save energy and cope with the actual sales situation.
[0078]
Furthermore, the season priority mode can be arbitrarily set. When the season priority mode is not set, the operation is performed in the operation mode selected and set by the setting unit 66. When the season priority mode is set, the setting is selected by the setting unit 66. The operation mode is automatically changed to the operation mode according to the season, so the seasonal control factor can be set arbitrarily, and it can be handled according to the actual sales situation.
[0079]
Next, an energy saving automatic setting pattern using the learning function of the sales frequency by time zone will be described with reference to the flowcharts of FIGS.
[0080]
In addition to the above-described control of energy saving automatic setting, a learning function of sales frequency by time zone is added.
[0081]
When the energy saving automatic setting using the learning function of the sales frequency by time zone is selected in the setting unit 66 (step 32), it is determined whether there is accumulated data of the sales frequency by time zone until the previous day (step 33).
[0082]
First, a case where there is no accumulated data of sales frequency by time zone until the previous day will be described.
[0083]
If there is no accumulated data, the standard capacity operation mode is set and executed (step 34). Then, it is determined whether or not the sale is allowed from the hot water temperature of the hot water tank 25 or the cooling state by the cooling device 52 (step 35). 36). In this sales standby state, the hot water boiling device 41 boils hot water in the hot water tank 25 and the cooling device 52 cools the cooling water 26 in the cooling water tank 27 by the operation program B in the standard capacity operation mode.
[0084]
When the sales allowance state is reached, a sales cycle is displayed, money is accepted, and the sales frequency is discriminated by time zone (for example, 1 hour unit from the update start time of the date (day of the week)) 2 o'clock ... 23:00 and 24:00) are set, and the timer for each time zone is started (step 37).
[0085]
Then, it is monitored whether the beverage is sold (step 38) or whether the unit time for each time zone has passed (step 39).
[0086]
If the beverage is sold, it is judged whether it is a hot beverage or a cold beverage. If it is a hot beverage, the sales record is added to the hot beverage sales counter of the counter 68, and if it is a cold beverage, the sales of the cold beverage system of the counter 68 are performed. The sales record is added and stored in the counter (step 40). Further, it is confirmed whether a unit time for each time zone has elapsed (step 41).
[0087]
When the unit time for each time zone has elapsed, it is determined whether the number of sales in the elapsed time zone is less than or equal to a predetermined standard number (step 42). If it is above, it switches to the maximum capacity operation mode (step 44).
[0088]
Further, it is determined whether 24 hours have passed since the sales allowance (step 45), and if not, it is determined whether it is the update start time of the date (day of the week) (step 46).
[0089]
If it is not the update start time of the date (day of the week), monitoring and accumulation of sales results in the next time zone is continued. If it is the update start time of the date (day of the week), the date (day of the week) is advanced, and monitoring and accumulation of the sales performance in the next time zone is continued (step 47).
[0090]
In this way, monitoring and accumulation of sales results by time zone is continued, and when 24 hours have passed since the sales allowance, from the sales frequency by time zone for one day (for 24 hours), for example, at the start of the office The peak time zone of sales frequency (a time zone of a predetermined number or more) in which sales concentrate in a short time such as lunch time and break time is determined to determine whether today's peak correspondence is necessary (step 48).
[0091]
Next, a case where there is accumulated data of sales frequency by time zone up to the previous day in step 33 will be described.
[0092]
It is determined whether it is the update start time of the date (day of the week) (step 49). If it is not the update start time of the date (day of the week), it is determined whether it is in a sales-permitted state from the hot water temperature of the hot water tank 25 or the cooling state by the cooling device 52. If it is not in the allowable state (step 50), a sold-out or preparation-in-progress display is displayed to enter a sales standby state (step 51). In this stand-by state, for example, by the operation program A in the minimum capacity operation mode, the hot water boiling device 41 boils hot water in the hot water tank 25 and the cooling device 52 cools the cooling water 26 in the cooling water tank 27.
[0093]
When the sales allowance state is reached, the sale is displayed and money is accepted (step 52).
[0094]
Based on the accumulated data of sales frequency by time zone up to the previous day, for example, the peak time zone of sales frequency (time zone more than the predetermined number) where sales concentrate in a short time such as office opening hours, lunch time and break time is judged Thus, it is determined whether or not it is necessary to deal with the peak according to the time zone of today (step 53).
[0095]
Here, if there is no peak correspondence for today's time zone, operation control is performed according to the automatic setting pattern based on the sales frequency of the day described with reference to FIGS. 5 and 6, and monitoring and accumulation of sales results are continued (step 54).
[0096]
If there is a peak corresponding to today's time zone, it is judged whether it is a predetermined time before the peak time zone (step 55). Control (step 56).
[0097]
When it is a predetermined time before the peak time zone, the operation mode is forcibly switched to the maximum capacity operation mode (step 57). The operation program C in the maximum capacity operation mode is used to boil and cool the hot water in the hot water tank 25 in the water heater 41. In 52, the cooling water 26 in the cooling water tank 27 is cooled.
[0098]
When a predetermined time elapses from the time when the mode is forcibly switched to the maximum capacity operation mode (step 58), the operation control is returned to the automatic setting pattern based on the sales frequency of the day (step 59).
[0099]
In addition, it is determined whether there is a peak response for the next time zone for today (step 60), and if so, operation control is performed by the automatic setting pattern according to the sales frequency of the day until a predetermined time before the peak time zone, Continue to monitor and accumulate sales performance.
[0100]
When the peak correspondence for today is completed, the process returns to step 49 to determine whether the update start time of the date (day of the week) is reached. Until the update start time of the date (day of the week) is reached, operation control is performed according to the automatic setting pattern based on the sales frequency of the current day, and monitoring and accumulation of sales results is continued.
[0101]
When the update start time of the date (day of the week) comes, the data of the sales frequency by time zone of the previous day is replaced with the oldest data, and data for one week is held (step 61).
[0102]
From the sales frequency data for one week for each week, the sales frequency for today is calculated, and the current sales frequency for this day varies with the sales frequency for each time zone until the previous day. (Step 62).
[0103]
If there is no change (change more than a predetermined value), for example, when updating the day of the week from weekdays to weekdays such as Monday to Tuesday, the process proceeds to step 50 described above.
[0104]
If there is a fluctuation (fluctuation more than a predetermined value), it is determined whether it is a target pattern such as a holiday (step 63). When the sales frequency by time zone increases compared to the previous day, for example, update the day of the week from Sunday to Monday If yes, go to step 50 described above.
[0105]
When the sales frequency by time zone is reduced as compared with the previous day, for example, it is determined that the day of the week is updated from Friday to Saturday and from Saturday to Sunday, and is determined to be a holiday. In addition, when Saturday and Sunday are holidays, there is little or no change in sales frequency by time of day with Saturday, but the comparison target of sales frequency by time is up to the previous day, that is, including before Saturday. It can be determined that it is a holiday.
[0106]
If it is determined that it is a holiday, the minimum capacity operation mode is set (step 64). It is judged whether the product is in a sales-permitted state from the hot water temperature of the hot water tank 25 and the cooling state by the cooling device 52 (step 65). If the sales allowance state is displayed, display the sale in progress, allow the acceptance of money (step 67), proceed to step 54, continue operation monitoring and accumulation by controlling the operation with the automatic setting pattern according to the sales frequency of the day To do.
[0107]
In this way, it is possible to save energy by operating in the operation mode according to the sales frequency as usual, and predict the peak time zone where sales concentrate in a short time from the sales frequency by time zone, and the peak By operating in the maximum capacity operation mode corresponding to before the time zone, it can be prevented that the sales are not caught up and sold out and the waiting time for sales recovery is prolonged, thus saving energy and actual sales. It can respond to the situation.
[0108]
Furthermore, it is possible to cope with the actual sales situation by determining a plurality of peak time zones and operating in the maximum capacity operation mode corresponding to each of the plurality of peak time zones.
[0109]
Furthermore, from the accumulated data of the sales frequency according to the time period for at least one week, for example, predicting a low sales frequency day such as a holiday, and driving in the minimum capacity operation mode corresponding to the low sales frequency day, In addition to saving energy, it can also handle actual sales conditions.
[0110]
As described above, the vending machine according to the present embodiment can save energy in response to the sales ratio of hot drinks and cold drinks, peak hours, holidays, etc., and also fully supports the actual sales situation. it can.
[0111]
In the above-described embodiment, the operation control of the water heater 41 and the cooling device 52 has been described. However, for the ice making device 32, for example, the operation control for making a predetermined amount of ice from the full state of ice to the minimum state is cooled. It can be carried out in the same manner as the device 52, and the same effect can be obtained.
[0112]
Moreover, in the said embodiment, if it is the summer when the demand for hot beverages decreases, the operation mode of the water heater 41 is lowered by one rank to the minimum capacity operation mode side, and if it is the winter when the demand for cold beverages decreases, it will be cooled. Although the operation mode of the device 52 has been lowered by one rank to the minimum capacity operation mode side, conversely, in the summer when the demand for cold beverages increases, the operation mode of the cooling device 52 is increased by one rank to the maximum capacity operation mode side, In the winter when demand increases, the operation mode of the water heater 41 may be increased by one rank to the maximum capacity operation mode side, or both of them may be applied.
[0113]
Moreover, although the vending machine which sells both a hot drink and a cold drink was demonstrated in the said embodiment, the same effect can be acquired also in the case of a vending machine only for a hot or a cold.
[0114]
In addition, the products sold in the vending machine are not limited to cup-type beverages, but may be canned beverages or other foods and drinks, and the same effects can be obtained.
[0115]
【The invention's effect】
According to the vending machine according to claim 1, it is possible to save energy by operating in an operation mode according to the sales frequency, and sales are concentrated in a short time from the sales frequency according to time zone. By predicting the peak time zone and operating in the maximum capacity operation mode corresponding to the peak time zone, it is possible to prevent the sales from being caught up and the sales recovery waiting time from being prolonged, thus saving energy. And can handle actual sales situations.
[0116]
According to the vending machine according to claim 2, in addition to the effect of the vending machine according to claim 1, a plurality of peak time zones are judged, and the maximum capacity operation mode is set corresponding to each of the plurality of peak time zones. By driving, it can respond to the actual sales situation.
[0117]
According to the vending machine according to claim 3, in addition to the effect of the vending machine according to claim 1 or 2, a day with a low sales frequency is determined from the memory of the sales frequency by time period for at least one week. In addition, by operating in the minimum capacity operation mode corresponding to a day with low sales frequency, energy can be saved and the actual sales situation can also be supported.
[0118]
According to the vending machine according to claim 4, since the operation mode selected by the operation mode selection means is automatically changed to the operation mode side according to the season, energy saving can be achieved and the actual sales situation can be obtained. Can also respond. Moreover When the season priority mode is not set, the operation mode selected by the operation mode selection means is operated. When the season priority mode is set, the operation mode selected by the operation mode selection means is changed to the operation mode side corresponding to the season. Because it changes automatically, the seasonal control factor can be set arbitrarily, and it can correspond to the actual sales situation.
[0119]
Claim 5 According to the vending machine described, the individual operation modes of the heating operation and the cooling operation according to the individual sales frequency of the heating product and the cooling product are determined, and the heating operation and the cooling operation are individually controlled in these operation modes. Therefore, energy saving can be achieved and the actual sales situation can be dealt with. Moreover If the individual control mode is selected, the heating operation and the cooling operation are controlled in the individual operation modes. If the common control mode is selected, the heating operation and the cooling operation are controlled in the common operation mode. Can be set arbitrarily and can correspond to the actual sales situation.
[Brief description of the drawings]
FIG. 1 is a control configuration diagram of a vending machine showing an embodiment of the present invention.
FIG. 2 is a block diagram of the vending machine.
FIG. 3 is a configuration diagram of the hot water tank.
FIG. 4 is a configuration diagram of the cooling water tank.
FIG. 5 is a flowchart of an automatic setting pattern according to the sales frequency of the same day.
FIG. 6 is a flowchart following FIG. 5;
FIG. 7 is a flowchart for manual single setting pattern following FIG. 5;
FIG. 8 is a flowchart of an energy-saving automatic setting pattern using the learning function of the sales frequency by time zone in combination with FIG.
FIG. 9 is a flowchart following FIG. 8;
[Explanation of symbols]
64 Storage section as operation mode storage means and sales frequency storage means by time zone
65 Arithmetic circuit as sales frequency discrimination means, operation mode discrimination means, judgment means and season discrimination means
66 Setting section as operation mode selection means, season priority mode selection means and control mode selection means
67 Operation control device as control means

Claims (5)

In a vending machine that performs at least one of a heating operation and a cooling operation and sells at least one of a heating product and a cooling product,
An operation mode storage means for storing a plurality of operation modes including at least a minimum capacity operation mode and a maximum capacity operation mode;
A sales frequency discriminating means for discriminating the sales frequency per unit time every predetermined time;
An operation mode discriminating unit for discriminating an operation mode according to the sales frequency determined by the sales frequency discriminating unit from among the operation modes stored in the operation mode storage unit;
A sales frequency storage means for storing sales frequency by time zone;
A determination means for determining the peak time zone of the sales frequency from the stored contents of the sales frequency storage means by time zone;
Control means for operating in the operation mode determined by the operation mode determination means and operating in the maximum capacity operation mode corresponding to the peak time period determined by the determination means. vending machine. The judging means judges a plurality of peak time zones,
The vending machine according to claim 1, wherein the control means is operated in a maximum capacity operation mode corresponding to each of a plurality of peak time periods determined by the determination means. The sales frequency storage means by time zone stores the sales frequency by time zone for at least one week,
The determination means determines a day with a low sales frequency from the storage contents of the sales frequency storage means by time zone,
The control means is operated in the minimum capacity operation mode corresponding to the low sales frequency determined by the determination means, and when the peak time zone is determined by the determination means on the low sales frequency day. 3. The vending machine according to claim 1, wherein the vending machine is operated in a maximum capacity operation mode . In a vending machine that performs at least one of a heating operation and a cooling operation and sells at least one of a heating product and a cooling product,
An operation mode selection means for selecting any one of a plurality of operation modes including at least a minimum capacity operation mode and a maximum capacity operation mode;
Means for determining the season, and
And seasonal priority mode selection means for selecting a season priority mode,
The season priority mode selection means by is operated seasonally priority mode the operation mode selected by the operation mode selecting means when not set, the operation mode selected by the operation mode selection means when the season priority mode has been set change the operation mode side in response to the determined season the season discriminating means relative to a control means for operating in the driving mode
Vending machine you characterized in that it comprises a. In vending machines that perform heating and cooling operations and sell heated and cooled products,
An operation mode storage means for storing a plurality of operation modes including at least a minimum capacity operation mode and a maximum capacity operation mode;
And control mode selecting means for selecting either the common control mode for the heating operation and the individual control mode cooling operation, and heating operation and cooling operation,
When the individual control mode is selected, the individual sales frequency of the heating product and the cooling product per unit time is determined every predetermined time. When the common control mode is selected, the heating product and the cooling product per unit time are determined every predetermined time. Sales frequency determination means for determining the total sales frequency,
When the individual control mode is selected, the heating operation and the cooling operation according to the individual sales frequency of the heating product and the cooling product determined by the sales frequency determination unit from the operation modes stored in the operation mode storage unit The individual sales mode is determined, and when the common control mode is selected, the total sales of the heating product and the cooling product determined by the sales frequency determination unit from among the operation modes stored in the operation mode storage unit An operation mode determination means for determining a common operation mode of the heating operation and the cooling operation according to the frequency ;
The individual control mode to the time of selection individually control the heating operation and cooling operation in the determined individual operation mode in the operation mode determination unit, at the time of selection of the common control mode is determined by the driving mode determination means and control means for control to the common heating operation and cooling operation by a common driving mode
Vending machine you characterized in that it comprises a.

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