JPS5938688Y2 - automatic ice maker - Google Patents
automatic ice makerInfo
- Publication number
- JPS5938688Y2 JPS5938688Y2 JP13871280U JP13871280U JPS5938688Y2 JP S5938688 Y2 JPS5938688 Y2 JP S5938688Y2 JP 13871280 U JP13871280 U JP 13871280U JP 13871280 U JP13871280 U JP 13871280U JP S5938688 Y2 JPS5938688 Y2 JP S5938688Y2
- Authority
- JP
- Japan
- Prior art keywords
- ice
- water
- making
- thermostat
- circulation pump
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Production, Working, Storing, Or Distribution Of Ice (AREA)
Description
【考案の詳細な説明】
この考案は自動製氷機に関し、特に、氷結寸前に発生す
る不完全米(純水又は泥水と呼称されるもので、具体的
には特開昭55−96881号公報に詳述しである。[Detailed description of the invention] This invention relates to an automatic ice maker, and in particular, it deals with incomplete rice (referred to as pure water or muddy water) that occurs on the verge of freezing. It is detailed.
)を防止するための全く新規な構成に関するものである
。) This relates to a completely new configuration for preventing such problems.
従来、用いられていたこの種の装置においては製氷板の
表面に水を流し、板面に含有不純物が排除された純粋の
氷を生成させる方式が多く用いられ、特に、板面に氷結
が始まる寸前に純水又は泥水が発生し、製氷量の減少、
製氷水の溢流等の支障が起ることは衆知の通りである。Conventionally used devices of this type often use a method in which water is poured over the surface of the ice-making plate to generate pure ice from which impurities have been removed, especially when ice begins to form on the plate surface. Pure water or muddy water is generated on the verge of occurrence, resulting in a decrease in the amount of ice made.
It is well known that problems such as overflow of ice-making water occur.
このような欠点を除去する手段として、製氷板面に純水
又は泥水が発生する時点をタイマ等で捉えるか、又は、
その直前に循環水流の供給を一時的に所定の時間中断し
、又は減少させることによって板面を過冷却するか、又
は、初期氷膜の形成を強制ルて、その後に循環水流の供
給を行なっていた。As a means to eliminate such drawbacks, the time point when pure water or muddy water is generated on the ice making plate surface can be detected using a timer or the like, or
Immediately before that, the supply of circulating water is temporarily interrupted or reduced for a predetermined period of time to supercool the plate surface, or the formation of an initial ice film is forced, and then the circulating water is supplied. was.
この場合、循環水流を一時的に停止するための所定の時
間とは、その製氷機構の製氷板面が流水の中断によって
過冷却されるか、又は、流水負荷の減少によって初期氷
膜を形成するとかの現象を呈し、次の循環再開において
は不完全米を発生させない程度まで冷却されるための最
低時間のことであり、さらに、製氷機構では循環水の所
定温度をサーモスタットで検知し、ポンプモータを停止
させると同時に遅延リレーを作動させて所定時間後に再
びポンプを作動させていた。In this case, the predetermined time for temporarily stopping the circulating water flow is defined as the period when the ice-making plate surface of the ice-making mechanism is supercooled due to the interruption of flowing water, or when an initial ice film is formed due to a reduction in the flowing water load. This is the minimum time required to cool the ice to a level that does not cause incomplete rice when the next cycle of circulation resumes.Furthermore, in the ice-making mechanism, a thermostat detects a predetermined temperature of the circulating water, and the pump motor At the same time, a delay relay was activated to restart the pump after a predetermined period of time.
ところが、こいような従来の構成においては、製氷板面
に不完全米の発生する時点を捉え、又は、その直前にポ
ンプモータを停止させて板面を過冷却し、さらには初期
氷膜の形成を強制するのに要する時間等は冷凍能力、す
なわち、室温、水温等の周囲条件に左右され、一定時間
の管理だけでは所期の目的を達成することは困難であっ
た。However, in this conventional configuration, the pump motor is stopped immediately before the formation of incomplete ice on the ice-making plate surface to supercool the plate surface, and further prevents the formation of an initial ice film. The time required to force the refrigeration depends on the refrigeration capacity, that is, the ambient conditions such as room temperature and water temperature, and it has been difficult to achieve the desired purpose by controlling only a certain amount of time.
さらに、このよづな従来の手段では、タイマ等の比較的
高価で、かつ機構的にも複雑な部品が必要となり、しか
も、室温、水温等0周囲条件の変化によってその都度調
整を必要とし、実用上大きな障害を供なっていた。Furthermore, this conventional method requires relatively expensive and mechanically complex components such as timers, and requires adjustment each time the ambient conditions such as room temperature and water temperature change, making it impractical. This posed a huge obstacle.
この考案は以上の欠点をすみやかに除去するための極め
て効果的な手段を提供することを目的とするもので、上
記目的から、この考案の自動製氷機は、循環水温検知サ
ーモスタットで循環製氷水の第1所定温度を検知して循
環ポンプを停止させ、次に除氷サーモスタットで製氷板
面の第2所定温度を検知して循環ポンプを駆動させるよ
うに、前記循環ポンプに、循環製氷水の第1所定温度を
検知する循環水温検知サーモスタットと、前記第1所定
温度より低い、製氷板の第2所定温度を検知する除氷サ
ーモスタットとからなる並列体を直列に接続し、前記循
環水温検知サーモスタット及び除氷サーモスタットによ
り前記循環ポンプの運転を制御することを%徴とするも
のである。The purpose of this invention is to provide an extremely effective means to quickly eliminate the above-mentioned drawbacks.For the above purpose, the automatic ice maker of this invention uses a circulating water temperature detection thermostat to control the circulating ice making water. A first predetermined temperature is detected to stop the circulation pump, and a second predetermined temperature of the ice making plate surface is detected by the deicing thermostat to drive the circulation pump. 1. A parallel body consisting of a circulating water temperature detection thermostat that detects a predetermined temperature and a deicing thermostat that detects a second predetermined temperature of the ice making plate that is lower than the first predetermined temperature is connected in series, and the circulating water temperature detection thermostat and The operation of the circulation pump is controlled by a deicing thermostat.
以下、図面と共にこの考案による自動製氷機の好適な実
施例について詳細に説明すると、第1図はこの考案を適
用できる垂直平板式の水循環式自動製氷機を示すもので
、図面において符号1で示されるものは製氷部であり、
この製氷部1は製氷板2、集水樋3、散水管4および蒸
発管5とから構成されている。Hereinafter, a preferred embodiment of the automatic ice making machine according to this invention will be described in detail with reference to the drawings. FIG. The ice making section is
The ice making section 1 is composed of an ice making plate 2, a water collection gutter 3, a water sprinkler pipe 4, and an evaporation pipe 5.
この製氷部1の下部には製氷水タンク6および予備タン
ク1とが設けられ、製氷水タンク6の水はパイプ8、循
環ポンプ9および弁10を介して散水管4の散水孔4a
から製氷板2に滴下される。An ice-making water tank 6 and a reserve tank 1 are provided at the bottom of the ice-making section 1, and the water in the ice-making water tank 6 is passed through a pipe 8, a circulation pump 9, and a valve 10 to a water sprinkling hole 4a of a water sprinkling pipe 4.
The ice cubes are dripped onto the ice making plate 2.
さらに、製氷板2から滴下して余った水は再び製氷水タ
ンク6に戻るように構成されている。Furthermore, the configuration is such that the remaining water dripping from the ice-making plate 2 returns to the ice-making water tank 6 again.
この製氷水タンク6には皿状の支持部材11が設けられ
、この支持部材11に装着されたオーバーフロー管12
は予備タンクIに臨ませている。This ice-making water tank 6 is provided with a dish-shaped support member 11, and an overflow pipe 12 attached to this support member 11.
is placed in reserve tank I.
この予備タンク1は製氷完了時に製氷板2から氷板を除
氷する時に使用される水の貯留用であり、除氷水パイプ
13、循環ポンプ14および水圧調節弁15を経て除氷
用散水管(図示せず)に供給されている。This reserve tank 1 is for storing water used to de-ice the ice plate from the ice-making plate 2 when ice making is completed, and the water is passed through a de-icing water pipe 13, a circulation pump 14, and a water pressure control valve 15 to a de-icing water sprinkler pipe ( (not shown).
さらに、製氷板2には除氷サーモスタット16が取りつ
けられていると共に、製氷水タンク6内には循環水温検
知サーモスタット17が設けられている。Furthermore, a deicing thermostat 16 is attached to the ice making plate 2, and a circulating water temperature detection thermostat 17 is provided in the ice making water tank 6.
これらの除氷サーモスタット16および循環水温検知サ
ーモスタット17は第2図に示される回路図のように各
々接続されている。The deicing thermostat 16 and circulating water temperature detection thermostat 17 are connected as shown in the circuit diagram shown in FIG.
すなわち、第2図において、X2はリレー、PM循環は
ポンプ9、Th2は除氷サーモスタット16、Th4は
循環水温検知サーモスタツ1−17、FMはファンモー
タ、CMは圧縮機であって、この考案によれば、特に循
環ポンプ9は、除氷サーモスタット16と循環水温検知
サーモスタット17とからなる並列体に直列に接続され
ている。That is, in Fig. 2, X2 is a relay, PM circulation is a pump 9, Th2 is a deicing thermostat 16, Th4 is a circulating water temperature detection thermostat 1-17, FM is a fan motor, and CM is a compressor. In particular, the circulation pump 9 is connected in series to a parallel body consisting of a deicing thermostat 16 and a circulating water temperature detection thermostat 17.
なお、第2図において、Th1は製氷機の貯水槽(図示
しない)に氷が有るときはその接点がOFFになり、氷
が無いときはONになる貯水検知用サーモスタット、S
3は製氷水タンク内に製氷用水が給水されるとその接点
がONとなり、製氷水タンク内の水位が低下(製氷板で
氷結した水量分が徐々に少なくなる)し、所定水位まで
低下すると、その接点がOFFとなり製氷完了信号を出
す製氷完了検知用フロートスイッチ、Th3は凝縮器用
ファンモータFMの凝縮圧力調節用サーモスタットで、
周囲温度が低下すると、凝縮圧力を低下しないようにそ
の接点がOFFとなり接点と直列に接続されているほう
のファンモータFMを停止するスイッチ、T1は断水検
知用タイマーで、その設定時間以内に所定量の給水が終
了しないときは、接点がOFFとなり、圧縮機CMを停
止させるタイマー、T2は給水量制御用タイマーで、ウ
ォータバルブW■が開弁して製氷水タンクに給水し、給
水検知用フロートスイッチS4の接点がONになってか
ら、その設定時間が経過すると、常閉接点をOFFにし
てウォータバルブW■を開弁させ給水を終了すると共に
、常開接点をONにしてリレーX2をONとし、自己保
持させるタイマー、SCは圧縮機のスターティングコン
デンサ、CRは圧縮機のスターターであるが、これ等の
電気素子はこの考案の要旨ではないのでその更なる説明
を省略する。In Fig. 2, Th1 is a water storage detection thermostat, S, whose contact is turned OFF when there is ice in the water storage tank (not shown) of the ice maker, and turned ON when there is no ice.
3, when ice-making water is supplied into the ice-making water tank, the contact turns ON, and the water level in the ice-making water tank decreases (the amount of water frozen on the ice-making plate gradually decreases), and when it drops to a predetermined water level, The float switch for detecting ice-making completion when the contact turns OFF and outputs the ice-making completion signal.Th3 is the thermostat for adjusting the condensation pressure of the condenser fan motor FM.
When the ambient temperature drops, the contact turns OFF to stop the fan motor FM connected in series with the contact so as not to reduce the condensing pressure. When the fixed amount of water supply is not completed, the contact turns OFF and the timer stops the compressor CM. T2 is the timer for controlling the amount of water supply, and the water valve W opens to supply water to the ice making water tank, which is used to detect water supply. When the set time has elapsed after the contact of the float switch S4 was turned ON, the normally closed contact is turned OFF and the water valve W■ is opened to end the water supply, and the normally open contact is turned ON to turn on the relay X2. A timer that is turned on and self-maintained, SC is a starting capacitor for the compressor, and CR is a starter for the compressor, but since these electric elements are not the gist of this invention, further explanation thereof will be omitted.
以上のような構成において、槽循水が第1所定温度に低
下したことを槽循水温検知サーモスタット17で検知し
て循環ポンプ9を停止させ、その後、製氷板2面が第1
所定温度より低い第2の所定の温度まで低下したことを
除氷サーモスタット16で検知して循環ポンプ9を駆動
させるものである。In the above configuration, the tank circulating water temperature detection thermostat 17 detects that the temperature of the circulating water in the tank has decreased to the first predetermined temperature, and the circulation pump 9 is stopped.
The deicing thermostat 16 detects that the temperature has decreased to a second predetermined temperature lower than the predetermined temperature, and the circulation pump 9 is driven.
さらに詳しく述べると、この除氷サーモスタット16は
製氷板2面に生成した氷が落下した後、製氷板温度が上
昇し第3所定温度に達すると接点aがONとなってリレ
ーX2がONとなり、循環ポンプ9が回転して製氷サイ
クルに入るように構成されている。More specifically, in this de-icing thermostat 16, after the ice generated on the ice-making plate 2 falls, the temperature of the ice-making plate rises and reaches a third predetermined temperature, contact a is turned ON, and relay X2 is turned ON. The circulation pump 9 is configured to rotate and enter the ice making cycle.
さらに、製氷板2面に不完全水が発生する直前に循環水
温検知サーモスタット17が循環製氷水の第1所定温度
を検知し、OFFとなって循環ポンプは停止される。Furthermore, just before incomplete water is generated on the ice-making plate 2 surface, the circulating water temperature detection thermostat 17 detects the first predetermined temperature of the circulating ice-making water, and is turned off to stop the circulation pump.
次に、製氷板2面に初期氷膜が生成されて、再び循環水
が流れても不完全水はもはや発生しない状態であること
を示す製氷板の第2所定温度を除氷サーモスタット16
で検知し、接点aから接点す側に切換わり、循環ポンプ
9が駆動して製氷を続行させるものである。Next, the deicing thermostat 16 sets a second predetermined temperature of the ice making plate, which indicates that an initial ice film has been formed on the ice making plate 2 surface and incomplete water will no longer be generated even if the circulating water flows again.
When the contact point a is detected, the contact point a is switched to the contact point side, and the circulation pump 9 is driven to continue ice making.
製氷が完了するとリレーX2はOFFとなつて、次の除
氷サイクルに入るように構成されている。When ice making is completed, relay X2 is turned off and the next deicing cycle begins.
この考案による自動製氷機は以上のような構成と作用と
を備えているため、室温、水温等の周囲条件が変化して
も、除氷サーモスタットと循環水温検知サーモスタット
とにより全て自動的に製氷及び除氷が制御され、常に安
定した製氷が行なわれ、純水、泥水等の不完全米の発生
が完全に防止できる。The automatic ice maker according to this invention has the above-mentioned configuration and functions, so even if the ambient conditions such as room temperature and water temperature change, the deicing thermostat and circulating water temperature detection thermostat automatically make ice and ice. De-icing is controlled, stable ice making is always performed, and the generation of incomplete rice such as pure water or muddy water can be completely prevented.
さらに、従来の構成のように、遅延リレー、タイマ等高
価で且つ機構的に複雑な部品を用いることなく安価に構
成することができる。Furthermore, unlike conventional configurations, the present invention can be constructed at low cost without using expensive and mechanically complex parts such as delay relays and timers.
又、除氷サモスタットを用いているので部品点数が少な
く、保守点検が極めて容易で、製氷能率を極めて向上さ
せるものである。Furthermore, since a deicing thermostat is used, the number of parts is small, maintenance and inspection are extremely easy, and ice making efficiency is greatly improved.
図面はこの考案による自動製氷機を示すもので、第1図
は全体構成を示す構成図、第2図は電気回路図である。
1は製氷部、2は製氷板、3は集水樋、4は散水管、5
は蒸発音、6は製氷水タンク、7は予備タンク、9(P
M)は循環ポンプ、16 (’rh2)は除氷サーモス
タット、17 (The)は循環水温検知サーモスタッ
ト、Xはリレーである。The drawings show an automatic ice maker according to this invention, with FIG. 1 being a block diagram showing the overall structure, and FIG. 2 being an electric circuit diagram. 1 is the ice making section, 2 is the ice making plate, 3 is the water collection gutter, 4 is the water pipe, 5
is the evaporation sound, 6 is the ice making water tank, 7 is the reserve tank, 9 (P
M) is a circulation pump, 16 ('rh2) is a deicing thermostat, 17 (The) is a circulating water temperature detection thermostat, and X is a relay.
Claims (1)
用する製氷水を貯留する製氷水タンクと、該製氷水タン
クに接続され、前記製氷板に製氷水を循環供給する循環
ポンプとを備える自動製氷機において、前記循環ポンプ
に、循環製氷水の第1所定温度を検知する循環水温検知
サーモスタットと、前記第1所定温度より低い、製氷板
の第2所定温度を検知する除氷サーモスタットとからな
る並列体を直列に接続し、前記第1、第2所定温度間の
温度範囲にわたって循環ポンプの運転を停示するよう前
記循環水温検知サーモスタット及び除氷サーモスタット
により前記循環ポンプを制御することを特徴とする自動
製氷機。An ice-making plate to which an evaporation tube is attached, an ice-making water tank for storing ice-making water used for making ice on the ice-making plate, and a circulation pump connected to the ice-making water tank to circulate and supply ice-making water to the ice-making plate. In the automatic ice maker, the circulation pump includes a circulating water temperature detection thermostat that detects a first predetermined temperature of the circulating ice making water, and a deicing thermostat that detects a second predetermined temperature of the ice making plate that is lower than the first predetermined temperature. are connected in series, and the circulation pump is controlled by the circulation water temperature detection thermostat and the deicing thermostat so as to stop operation of the circulation pump over a temperature range between the first and second predetermined temperatures. Features an automatic ice maker.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP13871280U JPS5938688Y2 (en) | 1980-10-01 | 1980-10-01 | automatic ice maker |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP13871280U JPS5938688Y2 (en) | 1980-10-01 | 1980-10-01 | automatic ice maker |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5770075U JPS5770075U (en) | 1982-04-27 |
| JPS5938688Y2 true JPS5938688Y2 (en) | 1984-10-27 |
Family
ID=29498718
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP13871280U Expired JPS5938688Y2 (en) | 1980-10-01 | 1980-10-01 | automatic ice maker |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS5938688Y2 (en) |
-
1980
- 1980-10-01 JP JP13871280U patent/JPS5938688Y2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS5770075U (en) | 1982-04-27 |
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