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JP5383748B2 - Showcase - Google Patents
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JP5383748B2 - Showcase - Google Patents

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JP5383748B2
JP5383748B2 JP2011128214A JP2011128214A JP5383748B2 JP 5383748 B2 JP5383748 B2 JP 5383748B2 JP 2011128214 A JP2011128214 A JP 2011128214A JP 2011128214 A JP2011128214 A JP 2011128214A JP 5383748 B2 JP5383748 B2 JP 5383748B2
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product
compressor
showcase
storage room
storage chamber
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JP2011169590A (en
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智隆 石川
多佳志 岡崎
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Mitsubishi Electric Corp
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Description

本発明は、スーパーマーケットやコンビニエンスストア等の店舗に設置されるショーケースに関するものである。   The present invention relates to a showcase installed in a store such as a supermarket or a convenience store.

従来よりスーパーマーケットやコンビニエンスストア等の店舗には冷蔵或いは冷凍用のショーケースが設置され、冷蔵・冷凍食品等の商品を陳列販売している。また、かかるショーケースでは周囲からの熱影響を受けるため、周囲温度に応じて庫内温度の設定値を変更する技術も提案されている(特許文献1参照)。   Conventionally, stores such as supermarkets and convenience stores have been installed with refrigerated or frozen showcases to display and sell products such as refrigerated and frozen foods. In addition, since this showcase is affected by heat from the surroundings, a technique for changing the set value of the internal temperature in accordance with the ambient temperature has also been proposed (see Patent Document 1).

特開2005−106403号公報(第1頁、図1)Japanese Patent Laying-Open No. 2005-106403 (first page, FIG. 1)

従来のショーケースは、貯蔵室への吹出し空気温度を庫内温度として容量制御を実施しており、周囲からの熱影響に応じて庫内温度の設定値を補正し、商品を適切に冷却していた。
しかし、商品陳列時における周囲以外の例えば商品の増加、減少による熱影響がある場合に、その熱影響を考慮した庫内温度の設定値は補正されず、商品を適切に冷却できないという問題があった。
In conventional showcases, capacity control is performed using the temperature of the air blown into the storage room as the internal temperature, and the set value of the internal temperature is corrected in accordance with the thermal influence from the surroundings to properly cool the product. It was.
However, when there is a thermal effect due to, for example, an increase or decrease in the product other than the surroundings when the product is displayed, the set value of the internal temperature considering the thermal effect is not corrected, and the product cannot be cooled properly. It was.

本発明は、かかる問題点を解決するためになされたもので、商品陳列時における商品の増加、減少による熱影響がある場合であっても、陳列された商品の温度を的確且つ効率的に制御することができるショーケースを得ることを目的とする。   The present invention has been made in order to solve such problems, and accurately and efficiently controls the temperature of displayed products even when there is a thermal effect due to an increase or decrease in products at the time of product display. The aim is to get a showcase that can be done.

本発明のショーケースは、圧縮機、放熱器、絞り装置及び蒸発器を配管で接続して冷媒回路を構成し、前記蒸発器での吸熱を利用して冷却が行われる貯蔵室を備えたショーケースにおいて、前記貯蔵室内に陳列される商品の荷重の変化を測定する重量センサと、前記貯蔵室内に追加陳列または減少される商品の種類を設定する商品設定スイッチと、前記商品設定スイッチによって設定された商品の比熱と、前記重量センサにより検知された荷重の変化との積に基づいて熱負荷を判定し、前記熱負荷が増加すると前記圧縮機の回転数を増速させて圧縮機容量を増させ、前記熱負荷が減少すると前記圧縮機の回転数を減速させて圧縮機容量を減少させるよう制御する制御装置とを備えて構成されている。 The showcase of the present invention is a show comprising a storage chamber in which a compressor, a radiator, a throttle device, and an evaporator are connected by piping to form a refrigerant circuit, and cooling is performed by using heat absorption in the evaporator. In the case, a weight sensor that measures a change in the load of a product displayed in the storage chamber, a product setting switch that sets a type of product to be additionally displayed or reduced in the storage chamber, and the product setting switch are set. and a specific heat of the product, said determining the thermal load on the basis of the product of the change of the detected load by the weight sensor, the compressor capacity by accelerating the rotation speed of the compressor and the heat load increases is increased, and is configured with a control device for the thermal load is controlled so reduced to less of the compressor capacity by reducing the rotational speed of the compressor decreases.

本発明のショーケースにおいては、制御装置が、商品設定スイッチによって設定された商品の比熱と、前記重量センサにより検知された荷重の変化との積に基づいて、圧縮機の回転数を増速させて圧縮機容量を所定時間増加させ、または圧縮機の回転数を減速させて圧縮機容量を一定時間減少させる。このため、貯蔵室内の商品追加陳列による温度上昇を抑制して商品を適切に冷却することができる。また、貯蔵室内の商品減少陳列による温度低下を抑制して商品を適切に冷却することができ、圧縮機の減速から省エネ効果が得られ、商品陳列時等の周囲以外からの商品の増加、減少による熱影響がある場合であっても、商品の温度を的確且つ効率的に制御することができるという効果がある。   In the showcase of the present invention, the control device increases the rotational speed of the compressor based on the product of the specific heat of the product set by the product setting switch and the change in the load detected by the weight sensor. The compressor capacity is increased for a predetermined time, or the compressor speed is decreased for a certain time by reducing the rotational speed of the compressor. For this reason, the temperature rise due to the additional product display in the storage room can be suppressed and the product can be appropriately cooled. In addition, it is possible to cool the product properly by suppressing the temperature drop due to the product reduction display in the storage room, the energy saving effect can be obtained from the deceleration of the compressor, and the product increase / decrease from outside the product display etc. Even when there is a thermal influence due to the above, there is an effect that the temperature of the product can be controlled accurately and efficiently.

本発明の実施の形態1のショーケースを示す模式図。The schematic diagram which shows the showcase of Embodiment 1 of this invention. 同ショーケースの冷凍サイクルの制御回路図。The control circuit diagram of the refrigerating cycle of the showcase. 本発明の実施形態2のショーケースを示す模式図。The schematic diagram which shows the showcase of Embodiment 2 of this invention. 同ショーケースの冷凍サイクルの制御回路図。The control circuit diagram of the refrigerating cycle of the showcase. 本発明の実施形態3のショーケースを示す模式図。The schematic diagram which shows the showcase of Embodiment 3 of this invention. 同ショーケースの冷凍サイクルの制御回路図。The control circuit diagram of the refrigerating cycle of the showcase. 本発明の実施形態4のショーケースの冷凍サイクルの制御回路図。The control circuit diagram of the refrigerating cycle of the showcase of Embodiment 4 of this invention.

実施の形態1.
図1は本発明の実施の形態1のショーケースを示す模式図、図2は同ショーケースの冷凍サイクルの制御回路図である。
図1に示すように、本実施の形態1の冷凍機内蔵型インバータのショーケースAは縦型オープンショーケースであり、断面略コ字状の断熱壁7と、断熱壁7の両側に取り付けられる側板(図示せず)とから構成されている。
断熱壁7の内側には間隔を置いて内層仕切板8が取り付けられており、断熱壁7と内層仕切板8との間が内層ダクト9とされている。内層仕切板8の内側が庫内である貯蔵室10とされている。
Embodiment 1 FIG.
FIG. 1 is a schematic diagram showing a showcase according to Embodiment 1 of the present invention, and FIG. 2 is a control circuit diagram of a refrigeration cycle of the showcase.
As shown in FIG. 1, the showcase A of the inverter with a built-in refrigerator according to the first embodiment is a vertical open showcase, and is attached to a heat insulating wall 7 having a substantially U-shaped cross section and both sides of the heat insulating wall 7. It is comprised from the side plate (not shown).
An inner layer partition plate 8 is attached to the inner side of the heat insulating wall 7 with a gap therebetween, and an inner layer duct 9 is formed between the heat insulating wall 7 and the inner layer partition plate 8. The inside of the inner layer partition plate 8 is a storage chamber 10 that is inside the cabinet.

この貯蔵室10内には商品陳列用の4段の棚11が架設されると共に、各棚11の下面前部と貯蔵室10の天井部10aには照明用の蛍光灯12がそれぞれ取り付けられている。貯蔵室10の底部の下方には内層ダクト9に連通した底部ダクト13が設けられている。そして、この底部ダクト13内には庫内用送風機14が設置される。また、貯蔵室10の背方に位置する内層ダクト9内の下部には蒸発器4が縦設されている。   In this storage room 10, four-tier shelves 11 for product display are erected, and fluorescent lamps 12 for illumination are respectively attached to the front part of the lower surface of each shelf 11 and the ceiling part 10 a of the storage room 10. Yes. A bottom duct 13 communicating with the inner layer duct 9 is provided below the bottom of the storage chamber 10. An internal fan 14 is installed in the bottom duct 13. An evaporator 4 is provided vertically at the lower part of the inner layer duct 9 located behind the storage chamber 10.

貯蔵室10の前面開口部15の上縁には吐出口16が設置されており、また、開口部15の下縁には吸込口17が形成され、底部ダクト13に連通している。
一方、底部ダクト13の下方側に底部仕切板18が取り付けられており、底部仕切板18の下方側が機械室19とされている。
機械室19には、圧縮機1、放熱器2、絞り装置3、放熱用送風機5、制御装置6が設置されている。
また、断熱壁7の上部に設けられた庇20の外側にユーザ操作用の操作パネル21が取り付けられている。その操作パネル21には、貯蔵室10内の熱負荷が増大するとき、例えばユーザが商品を追加陳列する場合などに急速冷却を実施できる急速冷却スイッチ22と貯蔵室10内の熱負荷が減少するとき、例えばユーザが商品を減少させる場合などに冷却能力を低減できる弱冷却スイッチ23とが設けられている。
A discharge port 16 is provided at the upper edge of the front opening 15 of the storage chamber 10, and a suction port 17 is formed at the lower edge of the opening 15 and communicates with the bottom duct 13.
On the other hand, a bottom partition plate 18 is attached to the lower side of the bottom duct 13, and a lower side of the bottom partition plate 18 is a machine room 19.
In the machine room 19, a compressor 1, a radiator 2, a throttle device 3, a heat dissipation fan 5, and a control device 6 are installed.
In addition, an operation panel 21 for user operation is attached to the outside of the basket 20 provided on the upper portion of the heat insulating wall 7. In the operation panel 21, when the thermal load in the storage chamber 10 increases, for example, when the user additionally displays goods, the rapid cooling switch 22 that can perform rapid cooling and the thermal load in the storage chamber 10 decrease. In some cases, for example, a weak cooling switch 23 that can reduce the cooling capacity when the user decreases the number of products is provided.

圧縮機1、放熱器2、絞り装置3及び底部仕切板18の上部の蒸発器4が順次配管で接続され、配管内を冷媒が循環する。圧縮機1から吐出された冷媒は、放熱器2にて放熱用送風機5で送風された外気へ放熱し冷やされ、絞り装置3で減圧され、蒸発器4で蒸発して再び圧縮機1に戻ることでショーケースAの冷凍サイクルが形成される。
図2に示すように、制御装置6には操作パネル21に設けられた急速冷却スイッチ22と弱冷却スイッチ23とが接続され、その制御装置6は圧縮機1の回転数と庫内用送風機14の回転数を制御する。
The compressor 1, the radiator 2, the expansion device 3, and the evaporator 4 on the upper part of the bottom partition plate 18 are sequentially connected by piping, and the refrigerant circulates in the piping. The refrigerant discharged from the compressor 1 dissipates heat to the outside air blown by the heat dissipating blower 5 in the heat dissipator 2 and is cooled, depressurized by the expansion device 3, evaporates by the evaporator 4, and returns to the compressor 1 again. Thus, the refrigeration cycle of showcase A is formed.
As shown in FIG. 2, a quick cooling switch 22 and a weak cooling switch 23 provided on the operation panel 21 are connected to the control device 6, and the control device 6 is connected to the rotational speed of the compressor 1 and the internal blower 14. Control the number of revolutions.

次に、本発明の実施の形態1のショーケースAの動作について説明する。
庫内用送風機14が運転されると、底部ダクト13内の空気は後方の内層ダクト9に向けて吹き出され、蒸発器4と熱交換した後吹き上げられ、開口部15上縁の吐出口16から、下縁の吸込口17に向けて吹き出される。
Next, the operation of the showcase A according to Embodiment 1 of the present invention will be described.
When the internal blower 14 is operated, the air in the bottom duct 13 is blown out toward the rear inner duct 9 and is blown up after exchanging heat with the evaporator 4, and is discharged from the discharge port 16 at the upper edge of the opening 15. The air is blown out toward the suction port 17 at the lower edge.

これによって、貯蔵室10の開口部15には冷気エアーカーテンが形成され、開口部15からの外気の侵入が阻止若しくは抑制されると共に、冷気エアーカーテンの一部が貯蔵室10内に循環して貯蔵室10内は冷却される。尚、閉店時にはこの開口部15は図示しないナイトカバーにて塞がれることになる。
そして、これらの冷気などは吸込口17から底部ダクト13に帰還し、庫内用送風機14に再び吸い込まれることになる。
ショーケースAの運転中は、蒸発器4に霜が付着し、庫内用送風機14の風量が低下するため、貯蔵室10内の冷却が阻害される。そのため、圧縮機1を停止させ、庫内用送風機14を20〜30分程度回転させて外気で霜を融解させる除霜運転を所定時間間隔で行う。
As a result, a cold air curtain is formed in the opening 15 of the storage chamber 10, and intrusion of outside air from the opening 15 is prevented or suppressed, and a part of the cold air curtain is circulated in the storage chamber 10. The inside of the storage chamber 10 is cooled. When the store is closed, the opening 15 is closed with a night cover (not shown).
And these cold air etc. return to the bottom duct 13 from the suction inlet 17, and are suck | inhaled again by the air blower 14 for warehouse.
During the operation of the showcase A, frost adheres to the evaporator 4 and the air volume of the internal blower 14 decreases, so that cooling in the storage chamber 10 is hindered. Therefore, the compressor 1 is stopped, and the defrosting operation in which the internal blower 14 is rotated for about 20 to 30 minutes to melt frost with the outside air is performed at predetermined time intervals.

また、ショーケースAの運転中で、貯蔵室10内の熱負荷が増大する場合、例えばユーザが商品を現状の商品量に対して1割程度増加する追加陳列の場合等に、ユーザが急速冷却スイッチ22をオンにすることにより、急速冷却スイッチ22のオン信号を受けた制御装置6が圧縮機1の回転数を増速させることで圧縮機1容量を5〜10分程度の間、現状から2〜3割程度増大させる。
これにより、貯蔵室10内の商品追加陳列による温度上昇を抑制し、商品を適切に冷却することを可能とする。
また、制御装置6は圧縮機1の回転数を増速させると同時に、庫内用送風機14の回転数を増速させ、冷媒の蒸発温度低下を防ぐ。これにより、蒸発器4の着霜量が減少し、圧縮機1を停止させ、冷却できない除霜運転時間を短縮できるため、貯蔵室10内の温度上昇を抑制し、商品を適切に冷却する効果を向上させることができる。
In addition, when the heat load in the storage room 10 increases during the operation of the showcase A, for example, when the user performs an additional display in which the user increases the product by about 10% with respect to the current product amount, the user quickly cools. When the switch 22 is turned on, the control device 6 that has received the ON signal of the rapid cooling switch 22 increases the rotational speed of the compressor 1 to increase the capacity of the compressor 1 for about 5 to 10 minutes. Increase about 20-30%.
Thereby, the temperature rise by the goods additional display in the storage chamber 10 is suppressed, and it becomes possible to cool goods appropriately.
Further, the control device 6 increases the rotation speed of the compressor 1 and at the same time increases the rotation speed of the internal blower 14 to prevent a decrease in the evaporation temperature of the refrigerant. Thereby, since the amount of frost formation of the evaporator 4 reduces, the compressor 1 can be stopped and the defrost operation time which cannot be cooled can be shortened, the temperature rise in the store room 10 is suppressed, and the effect which cools goods appropriately Can be improved.

また、貯蔵室10内の熱負荷が減少するとき、例えばユーザが商品を現状の商品量に対して1割程度量減少させる場合等に、ユーザが弱冷却スイッチ23をオンにすることにより、弱冷却スイッチ23のオン信号を受けた制御装置6が圧縮機1の回転数を減速させることで圧縮機1容量を5〜10分程度の間、現状から2〜3割程度減少させる。
これにより、貯蔵室10内の商品減少による温度低下を抑制し、商品を適切に冷却することができ、圧縮機1の減速から省エネ効果を得られ、更に飲料品などの冷蔵商品の場合は凍結を防止できる。
Further, when the thermal load in the storage chamber 10 decreases, for example, when the user reduces the product by about 10% of the current product amount, the user turns on the weak cooling switch 23 to weaken the product. The control device 6 that has received the ON signal of the cooling switch 23 decelerates the rotational speed of the compressor 1 to reduce the capacity of the compressor 1 by about 20 to 30% from the current state for about 5 to 10 minutes.
Thereby, the temperature drop due to the decrease in the product in the storage chamber 10 can be suppressed, the product can be appropriately cooled, the energy saving effect can be obtained from the deceleration of the compressor 1, and in the case of a refrigerated product such as a beverage, it is frozen. Can be prevented.

上記実施の形態1では、貯蔵室10内の熱負荷の変動量、すなわち商品の追加量又は減少量が一定の場合に急速冷却運転又は弱冷却運転の運転時間も一定の所定時間であるが、熱負荷の変動量、すなわち商品の追加量又は減少量に応じて、急速冷却運転、又は弱冷却運転の運転時間をユーザ側で設定可能とすれば、より適した商品の冷却が可能となる。   In the first embodiment, when the fluctuation amount of the thermal load in the storage chamber 10, that is, when the amount of addition or reduction of the product is constant, the operation time of the rapid cooling operation or the weak cooling operation is also a predetermined predetermined time. If the user can set the operation time of the rapid cooling operation or the weak cooling operation in accordance with the fluctuation amount of the thermal load, that is, the amount of addition or reduction of the product, the product can be cooled more appropriately.

実施の形態2.
図3は本発明の実施形態2のショーケースを示す模式図、図4は同ショーケースの冷凍サイクルの制御回路図である。
本実施の形態2は、実施の形態1の急速冷却スイッチ22と弱冷却スイッチ23の代わりに、貯蔵室10の商品陳列用の4段の各棚11の上面にそれぞれ重量センサ24を設置し、商品の重量を測定することで貯蔵室10内の熱負荷変化を検知するようにしたものである。
本実施の形態2の構成で、実施の形態1と同様の構成は同一符号を付して重複した構成の説明を省略する。
Embodiment 2. FIG.
FIG. 3 is a schematic diagram showing a showcase according to Embodiment 2 of the present invention, and FIG. 4 is a control circuit diagram of the refrigeration cycle of the showcase.
In the second embodiment, instead of the quick cooling switch 22 and the weak cooling switch 23 of the first embodiment, weight sensors 24 are installed on the upper surface of each of the four shelves 11 for displaying goods in the storage room 10, respectively. A change in the thermal load in the storage chamber 10 is detected by measuring the weight of the product.
In the configuration of the second embodiment, the same configurations as those of the first embodiment are denoted by the same reference numerals, and the description of the overlapping configurations is omitted.

貯蔵室10内の熱負荷が増大するとき、すなわちユーザが商品を追加陳列し、重量センサ24で測定する商品重量が現状の商品重量に対して1割程度増加した場合に急速冷却を行う急速冷却運転を実施する。
即ち、各重量センサ24がそれぞれ測定し商品重量の合計が各棚11の合計の現状の商品重量に対して1割程度増加した場合、各重量センサ24が測定した商品重量の測定値を受けた制御装置6が圧縮機1の回転数を増速させることで圧縮機1容量を5〜10分程度の間、現状から2〜3割程度増大させる。
これにより、貯蔵室10内の商品追加陳列による温度上昇を抑制し、商品を適切に冷却することを可能とする。
Rapid cooling is performed when the thermal load in the storage chamber 10 increases, that is, when the user additionally displays a product and the product weight measured by the weight sensor 24 increases by about 10% with respect to the current product weight. Carry out driving.
That is, when each weight sensor 24 measures and the total product weight increases by about 10% with respect to the total current product weight of each shelf 11, the measurement value of the product weight measured by each weight sensor 24 is received. The controller 6 increases the rotation speed of the compressor 1 to increase the capacity of the compressor 1 by about 20 to 30% from the current state for about 5 to 10 minutes.
Thereby, the temperature rise by the goods additional display in the storage chamber 10 is suppressed, and it becomes possible to cool goods appropriately.

また、実施の形態1と同様に、圧縮機1の回転数を増速させると同時に、庫内用送風機14の回転数を増速させ、冷媒の蒸発温度低下を防ぐ。
これにより、蒸発器4の着霜量が減少し、圧縮機1を停止させ冷却できない除霜運転時間を短縮できるため、貯蔵室10内の温度上昇を抑制し、商品を適切に冷却する効果を向上させることができる。
Further, as in the first embodiment, the rotational speed of the compressor 1 is increased, and at the same time, the rotational speed of the internal fan 14 is increased to prevent a decrease in the evaporation temperature of the refrigerant.
Thereby, since the amount of frost formation of the evaporator 4 can be reduced and the defrosting operation time that cannot be cooled by stopping the compressor 1 can be shortened, the temperature rise in the storage chamber 10 can be suppressed and the product can be appropriately cooled. Can be improved.

また、貯蔵室10内の熱負荷が減少するとき、すなわちユーザが商品を減少させ、重量センサ24で測定する商品重量が現状の商品重量に対して1割程度減少した場合に冷却能力低減を行う弱冷却運転を実施する。
即ち、各重量センサ24がそれぞれ測定し商品重量の合計が各棚11の合計の現状の商品重量に対して1割程度減少した場合、各重量センサ24が測定した商品重量の測定値を受けた制御装置6が圧縮機1の回転数を減速させることで圧縮機1容量を5〜10分程度の間、現状から2〜3割程度低減させる。
これにより、貯蔵室10内の商品減少による温度低下を抑制し、商品を適切に冷却することができ、圧縮機1の減速から省エネ効果を得られ、更に飲料品などの冷蔵商品の場合は凍結を防止できる。
Further, when the heat load in the storage chamber 10 decreases, that is, when the user decreases the product and the product weight measured by the weight sensor 24 is reduced by about 10% with respect to the current product weight, the cooling capacity is reduced. Perform weak cooling operation.
That is, when each weight sensor 24 measures and the total product weight is reduced by about 10% with respect to the total current product weight of each shelf 11, the measurement value of the product weight measured by each weight sensor 24 is received. The controller 6 reduces the rotational speed of the compressor 1 to reduce the capacity of the compressor 1 by about 20 to 30% from the current state for about 5 to 10 minutes.
Thereby, the temperature drop due to the decrease in the product in the storage chamber 10 can be suppressed, the product can be appropriately cooled, the energy saving effect can be obtained from the deceleration of the compressor 1, and in the case of a refrigerated product such as a beverage, it is frozen. Can be prevented.

上記実施の形態2では、貯蔵室10内の熱負荷の変動量、すなわち商品の重量の増加量又は減少量が一定の場合に急速冷却運転又は弱冷却運転の運転時間も一定の所定時間であるが、熱負荷の変動量、すなわち商品重量の増加量又は減少量に応じて、急速冷却運転、又は弱冷却運転の運転時間又は圧縮機容量の変化量を変更すれば、より適した商品の冷却が可能となる。
また、上記実施の形態2では、各棚11に重量センサ24を設けているが、貯蔵室10の底面が受ける加重を測定する重量センサ24を1つ設けるようにしてもよいことは勿論である。
In the second embodiment, when the fluctuation amount of the heat load in the storage chamber 10, that is, the increase or decrease in the weight of the product is constant, the operation time of the rapid cooling operation or the weak cooling operation is also a predetermined predetermined time. However, if the operating time of the rapid cooling operation or the weak cooling operation or the amount of change in the compressor capacity is changed according to the fluctuation amount of the heat load, that is, the increase or decrease of the product weight, the product can be cooled more appropriately. Is possible.
In the second embodiment, the weight sensor 24 is provided on each shelf 11, but it goes without saying that one weight sensor 24 for measuring the load applied to the bottom surface of the storage chamber 10 may be provided. .

ユーザ操作用の操作パネル21があり、その操作パネル21にユーザが追加陳列、または減少させる商品の種類を設定できる商品設定スイッチを設けるようにしてもよい。
かかる商品設定スイッチとしては、ドリンクスイッチ、精肉スイッチ、鮮魚スイッチ等がある。
商品設定スイッチにより設定された商品の比熱と変化重量の積に応じて急速冷却運転、又は弱冷却運転の運転時間、又は圧縮機容量の変化量を変更すれば、より適した商品の冷却が可能となる。
There may be an operation panel 21 for user operation, and the operation panel 21 may be provided with a product setting switch that allows the user to set the type of product to be additionally displayed or reduced.
Such product setting switches include a drink switch, a meat switch, a fresh fish switch, and the like.
More appropriate product cooling is possible by changing the operating time of rapid cooling operation or weak cooling operation or the amount of change in compressor capacity according to the product of specific heat and change weight of the product set by the product setting switch It becomes.

実施の形態3.
図5は本発明の実施形態3のショーケースを示す模式図、図6は同ショーケースの冷凍サイクルの制御回路図である。
本実施の形態3は、実施の形態1の急速冷却スイッチ22又は弱冷却スイッチ23の代わりに、貯蔵室10の天井部10aと上から3段の各棚11の底面にそれぞれ放射温度センサ25を設置し、商品表面温度を測定することで貯蔵室10内の熱負荷変化を検知する。
本実施の形態3の構成で、実施の形態1と同様の構成は同一符号を付して重複した構成の説明を省略する。
ここで放射温度センサ25とは、物体から放射される赤外線の温度を測定して物体の温度を測るセンサをいう。
Embodiment 3 FIG.
FIG. 5 is a schematic diagram showing a showcase according to Embodiment 3 of the present invention, and FIG. 6 is a control circuit diagram of a refrigeration cycle of the showcase.
In the third embodiment, instead of the quick cooling switch 22 or the weak cooling switch 23 of the first embodiment, the radiation temperature sensor 25 is provided on the ceiling portion 10a of the storage chamber 10 and the bottom surface of each of the three shelves 11 from the top. It is installed and the thermal load change in the storage chamber 10 is detected by measuring the product surface temperature.
In the configuration of the third embodiment, the same configuration as that of the first embodiment is denoted by the same reference numeral, and the description of the overlapping configuration is omitted.
Here, the radiation temperature sensor 25 refers to a sensor that measures the temperature of an object by measuring the temperature of infrared rays emitted from the object.

貯蔵室10内の熱負荷が増大するとき、すなわちユーザが商品を追加陳列し、放射温度センサ25で測定する商品表面温度が例えば、5℃程度の設定庫内温度に対して2〜3℃上昇した場合に急速冷却を行う急速冷却運転を実施する。
即ち、各放射温度センサ24がそれぞれ測定した商品表面温度の平均値が設定庫内温度に対して2〜3℃上昇した場合に、各放射温度センサ25が測定した温度測定値を受けた制御装置6が圧縮機1の回転数を増速させることで圧縮機1容量を5〜10分程度の間、現状から2〜3割程度増大させる。
これにより、貯蔵室10内の商品追加陳列による温度上昇を抑制し、商品を適切に冷却することを可能とする。
When the thermal load in the storage chamber 10 increases, that is, the user additionally displays the product and the product surface temperature measured by the radiation temperature sensor 25 rises by 2 to 3 ° C with respect to the set internal temperature of about 5 ° C, for example. In such a case, a rapid cooling operation is performed to perform rapid cooling.
That is, when the average value of the product surface temperature measured by each radiation temperature sensor 24 rises by 2 to 3 ° C. with respect to the set internal temperature, the control device that receives the temperature measurement value measured by each radiation temperature sensor 25 6 increases the rotational speed of the compressor 1 to increase the capacity of the compressor 1 by about 20 to 30% from the current state for about 5 to 10 minutes.
Thereby, the temperature rise by the goods additional display in the storage chamber 10 is suppressed, and it becomes possible to cool goods appropriately.

また、実施の形態1、実施の形態2と同様に、圧縮機1の回転数を増速させると同時に、庫内用送風機14の回転数を増速させれば、冷媒の蒸発温度低下を防ぐことができる。
これにより、蒸発器4の着霜量が減少し、圧縮機1を停止させ冷却できない除霜運転時間を短縮できるため、貯蔵室10内の温度上昇を抑制し、商品を適切に冷却する効果を向上できる。
Similarly to the first and second embodiments, if the rotation speed of the compressor 1 is increased and at the same time the rotation speed of the internal blower 14 is increased, a decrease in the evaporation temperature of the refrigerant is prevented. be able to.
Thereby, since the amount of frost formation of the evaporator 4 can be reduced and the defrosting operation time that cannot be cooled by stopping the compressor 1 can be shortened, the temperature rise in the storage chamber 10 can be suppressed and the product can be appropriately cooled. It can be improved.

また、貯蔵室10内の熱負荷が減少するとき、すなわちユーザが商品を減少させ、各放射温度センサ25で測定する商品表面温度の平均値が設定庫内温度に対して2〜3℃低下した場合に、冷却能力低減を行う弱冷却運転を実施する。
弱冷却運転は、圧縮機1の回転数を減速させることで圧縮機1容量を5〜10分程度の間、現状から2〜3割程度低減させる。
これにより、貯蔵室10内の商品減少による温度低下を抑制し、商品を適切に冷却することができ、圧縮機1の減速から省エネ効果を得られ、更に飲料品などの冷蔵商品の場合は凍結を防止できる。
Moreover, when the thermal load in the storage chamber 10 decreases, that is, the user decreases the product, the average value of the product surface temperature measured by each radiation temperature sensor 25 is reduced by 2 to 3 ° C. with respect to the set internal temperature. In some cases, a weak cooling operation is performed to reduce the cooling capacity.
In the weak cooling operation, the compressor 1 capacity is reduced by about 20 to 30% from the current state for about 5 to 10 minutes by decelerating the rotation speed of the compressor 1.
Thereby, the temperature drop due to the decrease in the product in the storage chamber 10 can be suppressed, the product can be appropriately cooled, the energy saving effect can be obtained from the deceleration of the compressor 1, and in the case of a refrigerated product such as a beverage, it is frozen. Can be prevented.

上記実施の形態3では、貯蔵室10内の熱負荷の変動量、すなわち商品表面温度の上昇量又は低下量が一定の場合に急速冷却運転又は弱冷却運転の運転時間も一定の所定時間であるが、熱負荷の変動量、すなわち商品表面温度の上昇又は低下に応じて、急速冷却運転、又は弱冷却運転の運転時間又は圧縮機容量の変化量を変更すれば、より適した商品の冷却が可能となる。   In the third embodiment, when the fluctuation amount of the heat load in the storage chamber 10, that is, the amount of increase or decrease in the product surface temperature is constant, the operation time of the rapid cooling operation or the weak cooling operation is also a predetermined predetermined time. However, if the operating time of the rapid cooling operation or the weak cooling operation or the amount of change in the compressor capacity is changed according to the fluctuation amount of the heat load, that is, the rise or fall of the product surface temperature, the product can be cooled more appropriately. It becomes possible.

放射温度センサ25は、貯蔵室10の天井部10aと上から3段の各棚11の底面にそれぞれ設置され、各放射温度センサ25で測定された温度の変化に応じて急速冷却運転、又は弱冷却運転の運転時間、又は圧縮機容量の変化量を変更すれば、より適した商品の冷却が可能となる。
上記実施の形態3では、放射温度センサ25が貯蔵室10の天井部10aと上から3段の各棚11の底面にそれぞれ設置されているが、貯蔵室10内にある商品全体を測定できるように1つの放射温度センサ25を貯蔵室10の上部に設置するようにしてもよい。
The radiation temperature sensor 25 is installed on the ceiling portion 10a of the storage room 10 and the bottom surface of each shelf 11 in three stages from the top, and the rapid cooling operation or the weakness is performed according to the temperature change measured by each radiation temperature sensor 25. If the operation time of the cooling operation or the amount of change in the compressor capacity is changed, more appropriate product cooling can be performed.
In the third embodiment, the radiation temperature sensor 25 is installed on the ceiling portion 10a of the storage chamber 10 and the bottom surface of each of the three shelves 11 from the top, so that the entire product in the storage chamber 10 can be measured. Alternatively, one radiation temperature sensor 25 may be installed in the upper part of the storage chamber 10.

ユーザ操作用の操作パネル21があり、その操作パネル21にユーザが追加陳列、または減少させる商品の種類を設定できる商品設定スイッチを設けるようにしてもよい。
かかる商品設定スイッチとしては、ドリンクスイッチ、精肉スイッチ、鮮魚スイッチ等がある。
商品設定スイッチにより設定された商品の放射率に応じて商品表面温度を補正し、急速冷却運転、又は弱冷却運転の運転時間、又は圧縮機容量の変化量を変更すれば、より適した商品の冷却が可能となる。
There may be an operation panel 21 for user operation, and the operation panel 21 may be provided with a product setting switch that allows the user to set the type of product to be additionally displayed or reduced.
Such product setting switches include a drink switch, a meat switch, a fresh fish switch, and the like.
If the product surface temperature is corrected according to the emissivity of the product set by the product setting switch, and the operating time of rapid cooling operation or weak cooling operation or the amount of change in compressor capacity is changed, the more suitable product Cooling is possible.

実施の形態4.
図7は本発明の実施形態4のショーケースの冷凍サイクルの制御回路図である。
本実施の形態4は、実施の形態1の急速冷却スイッチ22と弱冷却スイッチ23の代わりに、操作パネル21に照明を行う蛍光灯12の蛍光灯オンスイッチ26と、蛍光灯オフスイッチ27とを設置したものである。
本実施の形態4で上記以外の構成は、実施の形態1と同様であるので、ショーケースの構成を示す図は省略する。
ショーケースAの通常運転の場合は、蛍光灯オンスイッチ26を操作して蛍光灯12は点灯されており、店舗閉店時の場合は、蛍光灯オフスイッチ27を操作して蛍光灯12は消灯されている。
Embodiment 4 FIG.
FIG. 7 is a control circuit diagram of the refrigeration cycle of the showcase according to Embodiment 4 of the present invention.
In the fourth embodiment, instead of the quick cooling switch 22 and the weak cooling switch 23 of the first embodiment, a fluorescent lamp on switch 26 of the fluorescent lamp 12 that illuminates the operation panel 21 and a fluorescent lamp off switch 27 are provided. It is installed.
Since the configuration of the fourth embodiment other than the above is the same as that of the first embodiment, a diagram showing the configuration of the showcase is omitted.
In the normal operation of the showcase A, the fluorescent lamp 12 is turned on by operating the fluorescent lamp on switch 26. When the store is closed, the fluorescent lamp 12 is turned off by operating the fluorescent lamp off switch 27. ing.

蛍光灯オンスイッチ26が操作された場合、蛍光灯12は点灯され、蛍光灯12が消灯されている場合に比べて貯蔵室10内の熱負荷が増大するため、圧縮機1の容量を増加させ、貯蔵室10内温度と設定温度との乖離を抑制する。
また、蛍光灯オフスイッチ27が操作された場合、蛍光灯12は消灯され、蛍光灯12が点灯されている場合に比べて貯蔵室10内の熱負荷が減少するため、圧縮機1の容量を減少させることで貯蔵室10内温度と設定温度との乖離を抑制する。
When the fluorescent lamp on switch 26 is operated, the fluorescent lamp 12 is turned on, and the heat load in the storage chamber 10 is increased as compared with the case where the fluorescent lamp 12 is turned off, so that the capacity of the compressor 1 is increased. The deviation between the temperature in the storage chamber 10 and the set temperature is suppressed.
In addition, when the fluorescent lamp off switch 27 is operated, the fluorescent lamp 12 is turned off, and the heat load in the storage chamber 10 is reduced as compared with the case where the fluorescent lamp 12 is turned on. Decreasing the difference between the temperature in the storage chamber 10 and the set temperature is suppressed.

蛍光灯オンスイッチ26又は蛍光灯オフスイッチ27のいずれかが操作され、圧縮機容量を変化させれば、運転を実施している間、蛍光灯12の熱負荷による貯蔵室10内温度と設定温度との乖離を抑制することができ、商品を適切に冷却することを可能とする。   If either the fluorescent lamp on switch 26 or the fluorescent lamp off switch 27 is operated and the compressor capacity is changed, the temperature in the storage chamber 10 and the set temperature due to the heat load of the fluorescent lamp 12 during the operation. And the product can be cooled appropriately.

A ショーケース、1 圧縮機、2 放熱器、3 絞り装置、4 蒸発器、5 放熱用送風機、6 制御装置、7 断熱壁、8 内層仕切板、9 内層ダクト、10 貯蔵室、10a 天井部、11 棚、12 蛍光灯、13 底部ダクト、14 庫内用送風機、15 開口部、16 吐出口、17 吸込口、18 底部仕切板、19 機械室、20 庇、21 操作パネル、22 急速冷却スイッチ、23 弱冷却スイッチ、24 重量センサ。   A showcase, 1 compressor, 2 radiator, 3 expansion device, 4 evaporator, 5 heat blower, 6 control device, 7 heat insulation wall, 8 inner layer partition plate, 9 inner layer duct, 10 storage room, 10a ceiling, DESCRIPTION OF SYMBOLS 11 Shelf, 12 Fluorescent lamp, 13 Bottom duct, 14 Fan for interior, 15 Opening part, 16 Discharge port, 17 Suction port, 18 Bottom part partition plate, 19 Machine room, 20 庇, 21 Operation panel, 22 Quick cooling switch, 23 Weak cooling switch, 24 Weight sensor.

Claims (5)

圧縮機、放熱器、絞り装置及び蒸発器を配管で接続して冷媒回路を構成し、前記蒸発器での吸熱を利用して冷却が行われる貯蔵室を備えたショーケースにおいて、
前記貯蔵室内に陳列される商品の荷重の変化を測定する重量センサと、
前記貯蔵室内に追加陳列または減少される商品の種類を設定する商品設定スイッチと、
前記商品設定スイッチによって設定された商品の比熱と、前記重量センサにより検知された荷重の変化との積に基づいて熱負荷を判定し、前記熱負荷が増加すると前記圧縮機の回転数を増速させて圧縮機容量を増させ、前記熱負荷が減少すると前記圧縮機の回転数を減速させて圧縮機容量を減少させるよう制御する制御装置とを備えたことを特徴とするショーケース。
In a showcase having a storage chamber in which a compressor, a radiator, a throttle device, and an evaporator are connected by piping to constitute a refrigerant circuit, and cooling is performed using heat absorption in the evaporator,
A weight sensor for measuring a change in load of a commodity displayed in the storage chamber;
A product setting switch for setting the type of product to be additionally displayed or reduced in the storage room;
The thermal load is determined based on the product of the specific heat of the product set by the product setting switch and the change in the load detected by the weight sensor , and the rotation speed of the compressor is increased when the thermal load increases. allowed to increase the compressor capacity is, showcases, characterized in that a control device for the thermal load is controlled so reduced to less of the compressor capacity by reducing the rotational speed of the compressor to decrease .
前記重量センサは前記貯蔵室の底面又は前記貯蔵室の各棚に設けられていることを特徴とする請求項1記載のショーケース。   The showcase according to claim 1, wherein the weight sensor is provided on a bottom surface of the storage room or on each shelf of the storage room. 圧縮機、放熱器、絞り装置及び蒸発器を配管で接続して冷媒回路を構成し、前記蒸発器での吸熱を利用して冷却が行われる貯蔵室を備えたショーケースにおいて、
前記貯蔵室内に陳列される商品の表面温度の上昇、低下の変化を測定する放射温度センサと、
前記貯蔵室内に追加陳列または減少される商品の種類を設定する商品設定スイッチと、
前記商品設定スイッチによって設定された商品の放射率に応じて、前記放射温度センサにより検知された商品表面温度を補正し、この補正後の値に基づいて、前記圧縮機の回転数を増速又は減速させて圧縮機容量を増加又は減少させるよう制御する制御装置とを備えたことを特徴とするショーケース。
In a showcase having a storage chamber in which a compressor, a radiator, a throttle device, and an evaporator are connected by piping to constitute a refrigerant circuit, and cooling is performed using heat absorption in the evaporator,
Radiation temperature sensor for measuring changes in rise and fall in surface temperature of goods displayed in the storage room;
A product setting switch for setting the type of product to be additionally displayed or reduced in the storage room;
According to the emissivity of the product set by the product setting switch, the product surface temperature detected by the radiation temperature sensor is corrected, and based on the corrected value, the rotational speed of the compressor is increased or reduced. showcase is characterized by comprising a control device for controlling so as to decelerate the compressor capacity is increased or decreased.
前記放射温度センサは、前記貯蔵室の天井部又は前記貯蔵室の天井部及び前記貯蔵室の一番下の棚を除いた各棚の底面に設けられていることを特徴とする請求項3記載のショーケース。   The said radiation temperature sensor is provided in the bottom face of each shelf except the ceiling part of the said storage room or the ceiling part of the said storage room, and the lowest shelf of the said storage room. Showcase. 前記蒸発器に向けて送風する庫内用送風機を備え、
前記制御装置は、前記圧縮機の回転を増速させて圧縮機容量を増加させる際、前記庫内用送風機の回転数を増速させることを特徴とする請求項1〜請求項4のいずれか一項に記載のショーケース。
A fan for the inside that blows air toward the evaporator,
Wherein the control device, when to increase the compressor capacity by accelerated rotation speed of the compressor, according to claim 1 to claim 4, characterized in that for accelerated the rotational speed of the in-compartment blower The showcase according to any one of the above.
JP2011128214A 2011-06-08 2011-06-08 Showcase Expired - Fee Related JP5383748B2 (en)

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