JP3801936B2 - Liquid supply device for food - Google Patents

Liquid supply device for food Download PDF

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JP3801936B2
JP3801936B2 JP2002083765A JP2002083765A JP3801936B2 JP 3801936 B2 JP3801936 B2 JP 3801936B2 JP 2002083765 A JP2002083765 A JP 2002083765A JP 2002083765 A JP2002083765 A JP 2002083765A JP 3801936 B2 JP3801936 B2 JP 3801936B2
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Prior art keywords
stock solution
solenoid valve
tank
hot water
container
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JP2003276799A (en
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川 賢太郎 小
貫 正 文 大
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株式会社ゼンショー
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Description

【0001】
【発明の属する技術分野】
本発明はお茶等の高温の食品用液体を供給する食品用液体供給装置に係り、とりわけ食品用液体を安定した温度でかつ迅速に供給することができる食品用液体供給装置に関する。
【0002】
【従来の技術】
従来より、レストラン等において高温のお茶がお客様に提供される。この場合、レストランに高温のお茶を供給する食品用液体供給装置を設置し、この食品用液体供給装置により高温のお茶を供給している。
【0003】
【発明が解決しようとする課題】
従来の食品用液体供給装置は、お茶の供給時間が長く、お客様の数が多い場合、これに十分対応することができない、という問題がある。またお客様の数が多い場合、供給されたお茶の温度が低下してしまい、温かいお茶を供給できないことがある。
【0004】
本発明はこのような点を考慮してなされたものであり、高温の食品用液体を安定した温度でかつ迅速に供給することができる食品用液体供給装置を提供することを目的とする。
【0005】
【課題を解決するための手段】
本発明は、加熱ヒータを有し温水を生成する温水タンクと、保温ヒータを有するとともに温水タンクからの温水を受ける保温タンクと、原液を収納する原液タンクと、保温タンクおよび原液タンクよりも下方に設けられ、容器を載置する載置台と、保温タンクからの温水と、原液タンクからの原液を各々自重により導き、各下端開口から載置台上の容器へ温水または原液を自由落下により直接送るような、互いに独立した温水ラインおよび原液ラインとを備え、温水ラインおよび原液ラインに、温水電磁弁と原液電磁弁を各々取付け、原液電磁弁は、上方に位置する上方原液電磁弁と、下方に位置する下方原液電磁弁とからなり、上方原液電磁弁および下方原液電磁弁は、通常時上方原液電磁弁を開とし、下方原液電磁弁を閉とし、原液供給時に上方原液電磁弁を閉とし、下方原液電磁弁を開とするよう制御部により制御され、これにより上方原液電磁弁と下方原液電磁弁との間の原液ライン中の一定量の原液を載置台上の容器に供給することを特徴とする食品用液体供給装置である。
【0006】
本発明は、載置台に、容器が載置台に載置されたことを検知する容器センサを設け、温水電磁弁と原液電磁弁は、各々容器センサからの信号に基づいて作動することを特徴とする食品用液体供給装置である。
【0007】
本発明は、温水タンクは密閉タンクとなっており、温水タンクと保温タンクとの間に、供給電磁弁を有し温水タンク内の温水を保温タンクへ加圧供給する供給ラインを設けたことを特徴とする食品用液体供給装置である。
【0009】
【発明の実施の形態】
以下、図面を参照して本発明の実施の形態について説明する。図1および図2は、本発明による食品用液体供給装置の一実施の形態を示す図である。
【0010】
図1および図2に示すように、食品用液体供給装置10は、高温のお茶を供給するものであるが、お茶の代わりにラーメンのダシ、そばのダシ等を供給してもよい。
【0011】
このような食品用液体供給装置10は、加熱ヒータ11aを有し温水を生成できる温水タンク11と、温水タンク11の上方に配置され、保温ヒータ12aを有するとともに温水タンク11からの温水を受ける保温タンク12と、お茶の原液を収納する原液タンク20と、容器30を載置する載置台24と、保温タンク12からの温水を載置台24へ導く温水ライン16と、原液タンク20からの原液を載置台24へ導く原液ライン21とを備えている。
【0012】
このうち温水タンク11には、入口ライン19を介して水道水が供給され、この水道水は温水タンク11内において加熱ヒータ11aにより加熱されて70℃〜95℃の温水となる。
【0013】
温水タンク11は密閉タンクからなり、温水タンク11内の温水は、1〜2kg/cmの圧力に加圧された状態で供給ライン14を介して保温タンク12内へ送られるようになっている。供給ライン14には供給電磁弁15が取付けられており、この供給電磁弁15は保温タンク12内に配置されたフロート13からの信号に基づいて制御部25により開閉制御されるようになっている。
【0014】
また、保温タンク12内の温水は、保温ヒータ12aにより70℃〜90℃に維持されている。さらに保温タンク12からの温水ライン16には、温水電磁弁17が取付けられている。
【0015】
さらにまた、原液タンク20からの原液ラインク21には、上方に位置し通常時開となる上方原液電磁弁22aと、下方に位置し通常時閉となる下方原液電磁弁22bとが取付けられており、これら上方原液電磁弁22aと下方原液電磁弁22bとによって、原液電磁弁22a,22bが構成される。
【0016】
また載置台24には、容器30が載置台24上に載置されたことを検知する容器センサ18が取付けられている。さらにこの容器センサ18からの信号に基づいて制御部25により、温水電磁弁17、上方原液電磁弁22a、および下方原液電磁弁22bが開閉制御される。
【0017】
この場合、容器センサ18が作動すると、温水ライン16に取付けられた温水電磁弁17が開となり、温水ライン16から約160cc/1.2秒の流速で温水がノズル16aを介して容器30内へ供給される。また同時に、通常時開となる上方原液電磁弁22aが閉、通常時閉となる下方原液電磁弁22bが開となって、原液ライン21のうち上方原液電磁弁22aと下方原液電磁弁22bとの間の定量の原液が容器30内へ供給される。
【0018】
なお、載置台24上の容器30としては、180ccのお茶容器が考えられる。
【0019】
次にこのような構成からなる本実施例の作用について説明する。
まず入口ライン19から水道水が温水タンク11内へ供給され、この温水タンク11内で水道水は加熱ヒータ11aにより加熱され、70℃〜95℃の温水が生成される。
【0020】
保温タンク12内において温水が減少すると、フロート13からの信号に基づいて制御部25により供給電磁弁15が開となり、1〜2kg/cmに加圧された温水タンク11内の温水が供給ライン14を経て保温タンク12へ送られる。保温タンク12内の温水が十分に貯ったところで、フロート13からの信号に基づいて制御部25により供給電磁弁15が閉となる。保温タンク12内の温水は、保温ヒータ12aにより70℃〜95℃に保温される。
【0021】
他方、載置台24上に容器30が載置され、容器センサ18が容器30が載置台24上に載置されたことを検知する。このとき、容器センサ18からの信号に基づいて制御部25は温水電磁弁17を開とし、保温タンク12内の温水を温水ライン16およびノズル16aを介して容器30内へ供給する。この場合、容器30内へは160cc/1.2秒の流速で温水が供給される。同時に制御部25は上方原液電磁弁22aを閉、下方原液電磁弁22bを開とし、上方原液電磁弁22aと下方原液電磁弁22bとの間の原液ライン21中にある一定量のお茶の原液をノズル21aを介して容器30内へ供給する。
【0022】
このようにして容器30内へお茶の原液と温水とを同時に供給することにより、容器30内においてお茶の原液と温水とが混合し、これによって容器30内に高温のお茶を提供することができる。
【0023】
以上のように本実施の形態によれば、容器30内に高温のお茶を迅速に、かつ温度を安定化させて供給することができる。
【0024】
すなわち、保温タンク12内の温水を温水ライン16およびノズル16aを介して160cc/1.2秒という高速で容器30内に供給することができ、このとき容器30内で原液タンク20からの原液と温水とを確実に混合することができる。
【0025】
また、160cc/1.2秒という高速でくり返し容器30内に供給する場合、温水の温度が低下することも考えられるが、本発明においては温水を生成する温水タンク11を設置するとともに、温水タンク11とは別個に温水を保温する保温タンク12を設け、この保温タンク12から温水を容器30へ供給するようにしたので、例えば保温タンク内のみで温水を生成しかつ温水を供給する場合に比較して、保温タンク12から高温の温水を安定した温度で確実に供給することができる。
【0026】
なお、原液タンク20内にお茶の原液を収納した例を示したが、これに限らず原液タンク20内にラーメンのダシまたはソバのダシの原液を収納し、容器30内にラーメンのダシまたはソバのダシを供給してもよい。
【0027】
また、上記実施の形態において、温水タンク11を密閉タンクとして、温水タンク11内の温水を加圧状態で保温タンク12内へ送る例を示したが、これに限らず温水タンク11を大気開放型のタンクとし、温水タンク11内の温水を供給ポンプ(図示せず)により保温タンク12へ供給してもよい。
【0028】
【発明の効果】
以上のように本発明によれば、高温の食品用液体を安定した温度で、かつ迅速に供給することができる。
【図面の簡単な説明】
【図1】本発明による食品用液体供給装置の一実施例を示す正面図。
【図2】図1に示す食品用液体供給装置の側面図。
【符号の説明】
10 食品用液体供給装置
11 温水タンク
11a 加熱ヒータ
12 保温タンク
12a 保温ヒータ
14 供給ライン
15 供給電磁弁
16 温水ライン
17 温水電磁弁
18 容器センサ
20 原液タンク
21 原液ライン
22a 上方原液電磁弁
22b 下方原液電磁弁
24 載置台
25 制御部
30 容器[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a food liquid supply apparatus that supplies a high-temperature food liquid such as tea, and more particularly to a food liquid supply apparatus that can rapidly supply a food liquid at a stable temperature.
[0002]
[Prior art]
Traditionally, hot tea is provided to customers in restaurants and the like. In this case, a food liquid supply device that supplies hot tea to the restaurant is installed, and high temperature tea is supplied by the food liquid supply device.
[0003]
[Problems to be solved by the invention]
The conventional liquid supply device for food has a problem that the supply time of tea is long, and when the number of customers is large, it cannot sufficiently cope with this. In addition, if the number of customers is large, the temperature of the supplied tea may drop, and hot tea may not be supplied.
[0004]
The present invention has been made in consideration of such points, and an object of the present invention is to provide a food liquid supply apparatus capable of supplying a high temperature food liquid at a stable temperature and quickly.
[0005]
[Means for Solving the Problems]
The present invention includes a warm water tank that has a heater and generates warm water, a heat retention tank that has a heat retention heater and receives warm water from the warm water tank, a stock solution tank that stores the stock solution, and a heat retention tank and a stock solution tank below It is provided to guide the container on which the container is placed, the warm water from the heat retaining tank, and the undiluted liquid from the undiluted liquid tank by its own weight, and directly send the warm water or undiluted liquid from each lower end opening to the container on the placing table by free fall. The warm water line and the stock solution line are equipped with a warm water solenoid valve and a stock solution solenoid valve, respectively. The stock solution solenoid valve is located above the upper stock solution solenoid valve. The lower stock solution solenoid valve and the lower stock solution solenoid valve normally open the upper stock solution solenoid valve, close the lower stock solution solenoid valve, and supply the stock solution Is controlled by the control unit to close the upper stock solution solenoid valve and open the lower stock solution solenoid valve, thereby placing a fixed amount of stock solution in the stock solution line between the upper stock solution solenoid valve and the lower stock solution solenoid valve. A liquid supply apparatus for food, which is supplied to the upper container.
[0006]
The present invention is characterized in that the mounting table is provided with a container sensor for detecting that the container is mounted on the mounting table, and the hot water solenoid valve and the undiluted solution solenoid valve are operated based on signals from the container sensor, respectively. The liquid supply device for food.
[0007]
According to the present invention, the hot water tank is a sealed tank, and a supply line is provided between the hot water tank and the heat retaining tank, which has a supply electromagnetic valve and pressurizes and supplies the hot water in the hot water tank to the heat retaining tank. It is the liquid supply apparatus for foodstuffs characterized.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 are views showing an embodiment of a liquid supply apparatus for food according to the present invention.
[0010]
As shown in FIGS. 1 and 2, the food liquid supply apparatus 10 supplies hot tea, but it may supply ramen noodles, buckwheat noodles, etc. instead of tea.
[0011]
Such a liquid supply device for food 10 has a heater 11a and a warm water tank 11 that can generate warm water, and is disposed above the warm water tank 11 and has a heat retainer 12a and retains warm water from the warm water tank 11. The tank 12, the stock solution tank 20 for storing the tea stock solution, the mounting table 24 for placing the container 30, the hot water line 16 for guiding the hot water from the heat retaining tank 12 to the mounting table 24, and the stock solution from the stock solution tank 20 And a stock solution line 21 that leads to the mounting table 24.
[0012]
Among these, the hot water tank 11 is supplied with tap water through the inlet line 19, and the tap water is heated by the heater 11 a in the hot water tank 11 to become hot water of 70 ° C. to 95 ° C.
[0013]
The warm water tank 11 is a closed tank, and the warm water in the warm water tank 11 is sent into the heat retaining tank 12 through the supply line 14 while being pressurized to a pressure of 1 to 2 kg / cm 2 . . A supply electromagnetic valve 15 is attached to the supply line 14, and the supply electromagnetic valve 15 is controlled to be opened and closed by a control unit 25 based on a signal from a float 13 disposed in the heat retaining tank 12. .
[0014]
The warm water in the heat retaining tank 12 is maintained at 70 ° C. to 90 ° C. by the heat retaining heater 12a. Further, a hot water solenoid valve 17 is attached to the hot water line 16 from the heat retaining tank 12.
[0015]
Furthermore, an upper concentrate electromagnetic valve 22a located above and normally open and a lower concentrate electromagnetic valve 22b located below and normally closed are attached to the concentrate line 21 from the concentrate tank 20. These upper stock solution solenoid valve 22a and lower stock solution solenoid valve 22b constitute stock solution solenoid valves 22a and 22b.
[0016]
In addition, a container sensor 18 that detects that the container 30 has been placed on the placement table 24 is attached to the placement table 24. Further, based on the signal from the container sensor 18, the controller 25 controls the hot water solenoid valve 17, the upper concentrate electromagnetic valve 22a, and the lower concentrate electromagnetic valve 22b to be opened and closed.
[0017]
In this case, when the container sensor 18 is actuated, the hot water solenoid valve 17 attached to the hot water line 16 is opened, and the hot water enters the container 30 through the nozzle 16a at a flow rate of about 160 cc / 1.2 seconds. Supplied. At the same time, the upper stock solution solenoid valve 22a that is normally open is closed, the lower stock solution solenoid valve 22b that is normally closed is opened, and the upper stock solution solenoid valve 22a and the lower stock solution solenoid valve 22b of the stock solution line 21 are opened. A constant stock solution in between is supplied into the container 30.
[0018]
As the container 30 on the mounting table 24, a 180 cc tea container can be considered.
[0019]
Next, the operation of the present embodiment having such a configuration will be described.
First, tap water is supplied from the inlet line 19 into the hot water tank 11, and the tap water is heated by the heater 11 a in the hot water tank 11 to generate hot water of 70 ° C. to 95 ° C.
[0020]
When the hot water decreases in the heat retaining tank 12, the supply electromagnetic valve 15 is opened by the control unit 25 based on the signal from the float 13, and the hot water in the hot water tank 11 pressurized to 1 to 2 kg / cm 2 is supplied to the supply line. 14 is sent to the heat retaining tank 12. When the hot water in the heat retaining tank 12 is sufficiently stored, the supply electromagnetic valve 15 is closed by the control unit 25 based on the signal from the float 13. The warm water in the heat retaining tank 12 is kept at 70 ° C. to 95 ° C. by the heat retaining heater 12a.
[0021]
On the other hand, the container 30 is mounted on the mounting table 24, and the container sensor 18 detects that the container 30 is mounted on the mounting table 24. At this time, the control unit 25 opens the hot water electromagnetic valve 17 based on the signal from the container sensor 18 and supplies the hot water in the heat retaining tank 12 into the container 30 through the hot water line 16 and the nozzle 16a. In this case, hot water is supplied into the container 30 at a flow rate of 160 cc / 1.2 seconds. At the same time, the control unit 25 closes the upper stock solution solenoid valve 22a, opens the lower stock solution solenoid valve 22b, and supplies a certain amount of tea stock solution in the stock solution line 21 between the upper stock solution solenoid valve 22a and the lower stock solution solenoid valve 22b. It supplies into the container 30 through the nozzle 21a.
[0022]
By simultaneously supplying the tea stock solution and the hot water into the container 30 in this manner, the tea stock solution and the hot water are mixed in the container 30, thereby providing hot tea in the container 30. .
[0023]
As described above, according to the present embodiment, hot tea can be quickly supplied into the container 30 with the temperature stabilized.
[0024]
That is, the hot water in the heat retaining tank 12 can be supplied into the container 30 at a high speed of 160 cc / 1.2 seconds via the hot water line 16 and the nozzle 16a. It is possible to reliably mix with warm water.
[0025]
In addition, when supplying into the container 30 repeatedly at a high speed of 160 cc / 1.2 seconds, it is conceivable that the temperature of the hot water decreases. In the present invention, the hot water tank 11 for generating the hot water is installed, and the hot water tank 11 is provided with a heat retaining tank 12 that retains warm water, and the warm water is supplied from the heat retaining tank 12 to the container 30. Compared to, for example, generating warm water only in the heat retaining tank and supplying warm water. Thus, high-temperature hot water can be reliably supplied from the heat retaining tank 12 at a stable temperature.
[0026]
In addition, although the example which accommodated the undiluted tea in the undiluted | stock solution tank 20 was shown, it is not restricted to this, The undiluted | dense liquid of ramen or buckwheat is accommodated in the undiluted | stock solution tank 20, and the noodle or dashi of ramen is stored in the container 30. You may supply dashi.
[0027]
Moreover, in the said embodiment, although the warm water tank 11 was made into the airtight tank and the warm water in the warm water tank 11 was sent to the heat retention tank 12 in the pressurization state, it was not restricted to this, but the warm water tank 11 is open to the atmosphere type The hot water in the hot water tank 11 may be supplied to the heat retaining tank 12 by a supply pump (not shown).
[0028]
【The invention's effect】
As described above, according to the present invention, a high temperature food liquid can be rapidly supplied at a stable temperature.
[Brief description of the drawings]
FIG. 1 is a front view showing an embodiment of a liquid supply apparatus for food according to the present invention.
FIG. 2 is a side view of the food liquid supply apparatus shown in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Food liquid supply apparatus 11 Hot water tank 11a Heating heater 12 Thermal insulation tank 12a Thermal insulation heater 14 Supply line 15 Supply electromagnetic valve 16 Hot water line 17 Hot water electromagnetic valve 18 Container sensor 20 Stock solution tank 21 Stock solution line 22a Upper undiluted solution solenoid valve 22b Lower undiluted solution solenoid Valve 24 Mounting table 25 Control unit 30 Container

Claims (3)

加熱ヒータを有し温水を生成する温水タンクと、
保温ヒータを有するとともに温水タンクからの温水を受ける保温タンクと、
原液を収納する原液タンクと、
保温タンクおよび原液タンクよりも下方に設けられ、容器を載置する載置台と、
保温タンクからの温水と、原液タンクからの原液を各々自重により導き、各下端開口から載置台上の容器へ温水または原液を自由落下により直接送るような、互いに独立した温水ラインおよび原液ラインとを備え、
温水ラインおよび原液ラインに、温水電磁弁と原液電磁弁を各々取付け、
原液電磁弁は、上方に位置する上方原液電磁弁と、下方に位置する下方原液電磁弁とからなり、
上方原液電磁弁および下方原液電磁弁は、通常時上方原液電磁弁を開とし、下方原液電磁弁を閉とし、原液供給時に上方原液電磁弁を閉とし、下方原液電磁弁を開とするよう制御部により制御され、これにより上方原液電磁弁と下方原液電磁弁との間の原液ライン中の一定量の原液を載置台上の容器に供給することを特徴とする食品用液体供給装置。A hot water tank having a heater and generating hot water;
A heat retaining tank having a heat retaining heater and receiving warm water from the warm water tank;
A stock tank for storing the stock solution;
A mounting table provided below the heat retaining tank and the stock solution tank, on which the container is mounted;
Warm water from the heat retention tank and the undiluted solution from the undiluted solution tank are guided by their own weights, and hot water or undiluted solution lines that are independent from each other are sent directly from each lower end opening to the container on the mounting table by free fall. Prepared,
Attach a hot water solenoid valve and a stock solution solenoid valve to the hot water line and stock solution line respectively.
The stock solution solenoid valve consists of an upper stock solution solenoid valve located above and a lower stock solution solenoid valve located below,
The upper stock solution solenoid valve and the lower stock solution solenoid valve are controlled so that the upper stock solution solenoid valve is normally opened, the lower stock solution solenoid valve is closed, the upper stock solution solenoid valve is closed, and the lower stock solution solenoid valve is opened when the stock solution is supplied. A liquid supply apparatus for food, which is controlled by the unit and thereby supplies a predetermined amount of the stock solution in the stock solution line between the upper stock solution solenoid valve and the lower stock solution solenoid valve to the container on the mounting table. 載置台に、容器が載置台に載置されたことを検知する容器センサを設け、
温水電磁弁と原液電磁弁は、各々容器センサからの信号に基づいて作動することを特徴とする請求項1記載の食品用液体供給装置。The mounting table is provided with a container sensor that detects that the container has been mounted on the mounting table.
The food liquid supply apparatus according to claim 1, wherein each of the hot water solenoid valve and the undiluted solution solenoid valve is operated based on a signal from the container sensor. 温水タンクは密閉タンクとなっており、
温水タンクと保温タンクとの間に、供給電磁弁を有し温水タンク内の温水を保温タンクへ加圧供給する供給ラインを設けたことを特徴とする請求項1記載の食品用液体供給装置。The hot water tank is a sealed tank,
2. The food liquid supply apparatus according to claim 1, wherein a supply line is provided between the hot water tank and the heat retaining tank and has a supply electromagnetic valve to supply hot water in the hot water tank under pressure to the heat retaining tank.
JP2002083765A 2002-03-25 2002-03-25 Liquid supply device for food Expired - Lifetime JP3801936B2 (en)

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CN100443030C (en) * 2005-12-14 2008-12-17 方曙光 Fast-heating water drinker
JP7085357B2 (en) * 2018-01-31 2022-06-16 極東産機株式会社 Fixed-quantity supply device for additive components and fixed-quantity supply device for soup stock equipped with fixed-quantity supply device for additive components

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JPH0445518Y2 (en) * 1986-12-13 1992-10-26
JPH0739840Y2 (en) * 1988-09-20 1995-09-13 日東工器株式会社 Concentrated liquid dilution device
JPH05698U (en) * 1991-06-25 1993-01-08 極東産機株式会社 Dashi soup feeder
JPH05211858A (en) * 1992-02-03 1993-08-24 Daiwa Seisakusho:Kk Automatic soup dispenser
JPH0872991A (en) * 1994-09-02 1996-03-19 Yamato Seisakusho:Kk Soup supply apparatus
JP2691693B2 (en) * 1994-10-21 1997-12-17 ヤマニ乳業株式会社 Liquid dispensing device
JP3621768B2 (en) * 1995-11-29 2005-02-16 東芝機器株式会社 Liquid extraction device
JP2000137867A (en) * 1998-10-30 2000-05-16 Toshiba Electric Appliance Co Ltd Beverage extraction device
JP4045701B2 (en) * 1999-10-08 2008-02-13 富士電機リテイルシステムズ株式会社 Coffee machine
JP2002019886A (en) * 2000-07-06 2002-01-23 Toshiba Electric Appliance Co Ltd Drink mixing apparatus and drink dispensing apparatus

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