JPH0399175A - Auger type ice making device - Google Patents

Abstract

PURPOSE:To eliminate an accumulation of some ice pieces and prevent by a method wherein a discharging cylinder is fixed to be directed downwardly and inclined, an outer circumference of an opening end of the discharging cylinder is formed to have a large diameter and a thermal insulating material is wound around a small diameter part of the discharging cylinder and a circumference of a main body of a guiding cylinder. CONSTITUTION:An ice layer grown at an inner surface of a cooling cylinder 7 is peeled off by an auger 6, formed into compressed ice pieces 14 in a compression passage 8 and then fed to a guiding cylinder 15. The compressed ice pieces 14 are guiding by a rotating discharging member to a discharging cylinder 15B and then discharged to an ice storing hopper 2 under an action of the discharging cylinder 15B. Since the discharging cylinder 15B is inclined downwardly, the ice pieces are flowed smoothly within the discharging cylinder 15B and are prevented from being stayed. An opening end of the discharging cylinder 15B is made to have a large diameter part 15L. Thermal insulating material 19B and 19A are wound around an outer circumference of the main body 15A of the guiding cylinder as well as its small diameter par 15S. The thermal insulating material 19B of the discharging cylinder 15B is prevented from being pulled out at the large diameter part 15L of the end of part.

Description

【発明の詳細な説明】 （イ〉産業上の利用分野 本発明は製氷装置に関し、特に、オーガ式製氷装置の改
良に関するものである。DETAILED DESCRIPTION OF THE INVENTION (A) Field of Industrial Application The present invention relates to an ice making device, and particularly relates to an improvement of an auger type ice making device.

く口）従来の技術 従来技術として、例えば実公昭８１−４２０５１号公報
には、水平方向に突出する放出筒を有する円筒ホッパー
を、冷却円筒の上端開口と連通して設け、放出筒の開口
端部を貯氷庫の内方に突出して配設したオーガ式製氷装
置が開示されている。Conventional technology As a prior art, for example, Japanese Utility Model Publication No. 81-42051 discloses that a cylindrical hopper having a horizontally protruding discharge cylinder is provided in communication with the upper end opening of the cooling cylinder, and the opening end of the discharge cylinder is An auger-type ice making device has been disclosed in which a portion thereof is disposed so as to protrude inward of an ice storage.

（八〉発明が解決しようとする課題 斯かる従来技術によると、ホッパーから放出筒へ送られ
た氷が、速やかに貯氷庫へ放出されなかったり、製氷が
停止したときに放出筒内の氷が結合し、次の放出に支障
を来たしたりする問題点があった。(8) Problems to be Solved by the Invention According to such prior art, the ice sent from the hopper to the discharge cylinder is not promptly discharged to the ice storage, or when ice making stops, the ice in the discharge cylinder is There was a problem in that they could combine and cause problems in the next release.

また、ホッパー及び放出筒の外面に結露し、水滴が庫外
へ落下する問題点を奏していた。Additionally, there was a problem in that dew condensed on the outer surfaces of the hopper and the discharge cylinder, causing water droplets to fall outside the refrigerator.

本発明は、これら従来技術の問題点に鑑み、貯氷庫への
氷放出動作を円滑に行なうと共に、放出筒及び案内筒外
面の結露を防止することを目的としたオーガ式製氷装置
を提供するものである。In view of these problems in the prior art, the present invention provides an auger-type ice making device that smoothly discharges ice into the ice storage and prevents dew condensation on the outer surface of the discharge tube and guide tube. It is.

（二〉課題を解決するための手段 本発明は上記目的を達成するために、内部に削氷用オー
ガを配設した冷却円筒の上端開口と連通して、横向き放
出筒を有する案内筒を設け、放出筒の開口端部を貯氷庫
の内方に突出して配設して成る製氷装置において、前記
放出筒を下向きに傾斜して形或し、該放出筒の開口端部
外周を他の部分より大径に形或し、放出筒の小径部及び
前記案内筒の本体の周囲に断熱材を巻回して成るオーガ
式製氷装置である。(2) Means for Solving the Problems In order to achieve the above-mentioned object, the present invention provides a guide cylinder having a horizontal discharge cylinder, which communicates with the upper end opening of the cooling cylinder in which the ice cutting auger is disposed. , an ice making device in which the opening end of the discharge tube is disposed so as to protrude inward of the ice storage; the discharge tube is shaped so as to be inclined downward; This is an auger-type ice making device that has a larger diameter and has a heat insulating material wrapped around the small diameter portion of the discharge tube and the main body of the guide tube.

（ネ）作用 本発明によると、案内筒から放出筒へ送り出された氷が
、放出筒の傾斜作用によって、速やかに貯氷庫内に落下
すると共に、放出筒内の水滴が放出筒の先端から外面に
回り込んで貯氷庫外へ滴下することがない。(f) Function According to the present invention, the ice sent from the guide tube to the discharge tube quickly falls into the ice storage due to the tilting action of the discharge tube, and water droplets in the discharge tube flow from the tip of the discharge tube to the outer surface. There is no chance of dripping outside the ice storage.

また、放出筒の小径部及び案内筒の周囲に巻回した断熱
材の作用により、放出筒及び案内筒外面の結露が防止さ
れ、放出筒周囲の断熱材は、放出筒の開口端部が大径で
あるため、抜け落ちる心配がない。In addition, the heat insulating material wrapped around the small diameter part of the ejection tube and the guide tube prevents condensation on the outer surface of the ejection tube and the guide tube. Since it is a diameter, there is no need to worry about it falling out.

（へ〉実施例 以下に本発明の実施例を図面を参照して説明する。（１
〉は上部に氷落下通路（２）を画成すると共にこれと連
通ずる下部に貯氷室（３〉を画成ずる貯氷庫であり、氷
落下通路（２）の何方に位置する貯氷庫（ｉ）の上部に
は、オーガ式製氷装置（４〉が設置されている。(g) Examples Examples of the present invention will be described below with reference to the drawings. (1
〉 is an ice storage which defines an ice fall passage (2) at the upper part and an ice storage chamber (3〉) at the lower part which communicates with this, and which side of the ice fall passage (2) is located in the ice storage (i ), an auger-type ice making device (4) is installed.

オーガ式製氷装置（４）は、減速機及びオーガモータよ
り成る駆動装置（５）によって回転せしめられる削氷用
才−ガ（６）を内部に配設した冷却円筒（７）を備え、
該冷却円筒〈７〉の上部には、削氷用オーガ〈６〉の回
転軸（６Ａ〉を支持すると共に、周囲に複数の圧縮通路
（８）を形成した上部軸受〈９〉を固定配置している。The auger-type ice-making device (4) includes a cooling cylinder (7) in which an ice-shaving gear (6) is arranged, which is rotated by a drive device (5) consisting of a speed reducer and an auger motor.
At the top of the cooling cylinder <7>, an upper bearing <9> is fixedly arranged, which supports the rotating shaft (6A>) of the ice cutting auger <6> and has a plurality of compression passages (8) formed around it. ing.

また、冷却円筒（７）を冷却して内部に給水された水を
凍結させる冷凍装置は、冷却円ｆ！？Ｉ　（７）の周囲
に巻装した冷却コイル（１０〉に、圧縮機（１１）、凝
縮器（１２〉、キャビラリーチューブ（ｌ３）を介して
冷媒を循環して蒸発させ、冷却する冷凍回路を形成する
。更に、冷却円筒〈７〉の氷出口部には、連続的に製造
された圧縮氷片〈１４）を、貯氷庫（１）に導く案内筒
（１５）が設けられている。In addition, the refrigeration device that cools the cooling cylinder (7) and freezes the water supplied inside the cooling cylinder f! ? A refrigeration circuit that circulates and evaporates refrigerant through a cooling coil (10) wrapped around the I (7) through a compressor (11), a condenser (12), and a cavillary tube (13). Further, the ice outlet portion of the cooling cylinder <7> is provided with a guide cylinder (15) for guiding continuously produced compressed ice pieces <14) to the ice storage (1).

斯かる案内筒〈１５）は、案内筒本体（１５Ａ）と該本
体（１５Ａ）から側方に突出する放出筒（１５Ｂ＞を、
例えばブロー成形によって一体に構成して成り、この際
、本体（１５Ａ）の下端には取付け用スリーブ（１５Ｃ
）が形成され、放出筒（１５Ｂ＞は下向きに傾斜して形
成され、その開口端部を他の部分より大径に形成してい
る。従って、放出筒（１５Ｂ）は、小径部（１５５）と
大径部（１５Ｌ）より或り、その境に段差（１５０）が
形成される。Such a guide tube (15) includes a guide tube body (15A) and a discharge tube (15B) that protrudes laterally from the body (15A).
For example, it is integrally constructed by blow molding, and at this time, the lower end of the main body (15A) is provided with a mounting sleeve (15C).
) is formed, and the discharge cylinder (15B> is formed to be inclined downward, and its opening end is formed to have a larger diameter than the other part. Therefore, the discharge cylinder (15B) has a small diameter part (155) A step (150) is formed at the boundary between the large diameter portion (15L) and the large diameter portion (15L).

而して、案内筒（１５〉は水シール用ゴムプッシング（
１６）を介して、冷却円筒〈７〉の上部に挿入すること
によって、冷却円筒（７）の上端開口である氷出口部と
連通し、スリーブ（１５Ｃ）を取付け板（ｌ７）に螺子
（ｌ８）止めして固定される。一方、放出′ｎ（１５Ｂ
）の開口端部である大径部（１５Ｌ）は、貯氷庫（１）
の内方、即ち、氷落下通路〈２）に突出して配設されて
いる。また、本体（１５Ａ）の周囲及び放出ｔＩＩＪ（
１５Ｂ〉の小径部（１５５）の周囲には、発泡ポリエチ
レン等の断熱材（１９〉が巻かれている。この断熱材（
１９）は第３図に示すように、周囲に片面接着剤付きの
塩化ビニールテーブ（２３）を有し、本体（１５Ａ）に
巻かれる断熱材（１９Ａ｝と、放出筒（１５Ｂ）の小径
部（１５Ｓ）に巻かれる断熱材（１９Ｂ）より戒ってい
る。Therefore, the guide tube (15) is a rubber pusher for water seal (
By inserting the sleeve (15C) into the upper part of the cooling cylinder <7> through the sleeve (16), the sleeve (15C) is connected to the ice outlet section which is the upper end opening of the cooling cylinder (7), and the sleeve (15C) is screwed onto the mounting plate (l7). ) is stopped and fixed. On the other hand, release 'n(15B
) The large diameter part (15L) which is the open end of the ice storage (1)
In other words, it is arranged so as to protrude inward of the ice falling passage (2). In addition, the surroundings of the main body (15A) and the discharge tIIJ (
A heat insulating material (19) such as polyethylene foam is wrapped around the small diameter portion (155) of the heat insulating material (15B).
As shown in Fig. 3, 19) has a vinyl chloride tape (23) with adhesive on one side around its periphery, a heat insulating material (19A} wrapped around the main body (15A), and a small diameter part of the ejection tube (15B)). (15S) is more careful than the insulation material (19B) wrapped around it.

なお、案内筒（１５〉の内部には、才−ガ（６）の回転
軸（６Ａ〉に連結された木片放出用の放出体（２０）が
配設され、案内筒（１５）の上端面には、静電容量式の
氷検知板（２１）を配設して、製氷動作を制御するよう
になっている。Furthermore, inside the guide tube (15), a discharge body (20) for discharging wood chips connected to the rotating shaft (6A) of the guide tube (6) is disposed, and the upper end surface of the guide tube (15) A capacitance type ice detection plate (21) is disposed to control the ice making operation.

以上の構成によると、冷却円筒〈７〉の内面に成長した
氷層は、オーガ（６）によって削取されて圧縮通路（８
〉に移送され、ここでほとんどの水分を除去されて圧縮
木片（１４）と成り、案内筒（ｌ５〉に連続的に送り出
される。そして、この圧縮氷片（１４）は案内筒本体（
１５Ａ）内で回転している放出体く２０〉によって放出
筒（１５Ｂ）に導かれ、該放出筒（１５Ｂ）の傾斜作用
によって、貯氷庫（１）内に放出される。According to the above configuration, the ice layer that has grown on the inner surface of the cooling cylinder <7> is scraped off by the auger (6) and
〉, where most of the moisture is removed and it becomes a compressed piece of wood (14), which is continuously sent to the guide tube (15).The compressed ice piece (14) is then transferred to the guide tube body (14).
The ice is guided to the ejector tube (15B) by the ejector body 20> rotating in the ice cube 15A), and is discharged into the ice storage (1) by the tilting action of the ejector tube (15B).

この放出筒（　１　５Ｂ　）の傾斜は、放出筒（１５Ｂ
）内で溶けた氷の水滴（２２）を貯氷庫（１）内に処理
し、水滴（２２）の回り込みを防止する作用を重ねて奏
するもので、断熱材（１９Ｂ＞を濡らして断熱性能を低
下させたり、市外への水滴（２２）落下を防止すること
ができる。The slope of this discharge tube (15B) is the same as that of the discharge tube (15B).
), the water droplets (22) from the melted ice are processed into the ice storage (1), and the water droplets (22) prevent the water droplets (22) from going around. It is possible to prevent water droplets (22) from falling outside the city.

そして、案内筒本体（１５Ａ）及び放出筒（１５Ｂ）の
外面の結露は、断熱材（１９Ａ）及び（１９Ｂ）の作用
によって防止され、また、放出筒（１５Ｂ）が傾斜して
いても、断熱材（１９Ｂ）は大径部（１９Ｌ）と小径部
（１９５）の境に形成される段差（１５Ｄ）の作用によ
って抜け落ちが防止されることになる。Condensation on the outer surfaces of the guide tube main body (15A) and the discharge tube (15B) is prevented by the action of the heat insulating materials (19A) and (19B), and even if the discharge tube (15B) is inclined, the insulation The material (19B) is prevented from falling off due to the step (15D) formed at the boundary between the large diameter portion (19L) and the small diameter portion (195).

（ト）発明の効果 本発明は以下に列挙する効果を奏する。(g) Effects of the invention The present invention has the effects listed below.

■案内筒本体から放出筒へ送られた氷片が、放出筒内に
停滞することなく、速やかに貯氷庫内に放出される。■Ice pieces sent from the guide tube body to the discharge tube are quickly discharged into the ice storage without being stagnant in the discharge tube.

■放出筒内で溶けた氷の水滴によって断熱材の断熱性能
が低下したり、庫外を濡らしたりすることを防止できる
。■It is possible to prevent water droplets from melting ice inside the discharge tube from degrading the insulation performance of the insulation material and making the outside of the refrigerator wet.

■案内筒外面の結露を防止することができる， ■放出筒の周囲に巻装した断熱材の抜け落ちを確実に防
止することができる。■It is possible to prevent dew condensation on the outside surface of the guide tube. ■It is possible to reliably prevent the insulation material wrapped around the discharge tube from falling off.

【図面の簡単な説明】[Brief explanation of drawings]

第１図は本発明のオーガ式製氷装置の縦断面図、第２図
は同じく要部縦断面図、第３図は断熱材の斜視図である
。 （１）・・・貯氷庫、　（７〉・・・冷却円筒、　（１
５）・・・案内筒、　（１５Ａ）・・・案内筒本体、　
（１５Ｂ＞・・・放出筒、（１５Ｌ）・・・大径部、　
（１５５）・・・小径部、　（１９Ａ＞　．　（１９Ｂ
）・・・断熱材。FIG. 1 is a longitudinal cross-sectional view of an auger-type ice making apparatus of the present invention, FIG. 2 is a longitudinal cross-sectional view of the same main part, and FIG. 3 is a perspective view of a heat insulating material. (1)...Ice storage, (7>...Cooling cylinder, (1)
5)... Guide tube, (15A)... Guide tube body,
(15B>...Ejection cylinder, (15L)...Large diameter part,
(155)...Small diameter part, (19A>. (19B)
)...Insulation material.

Claims (1)

【特許請求の範囲】[Claims] １、内部に削氷用オーガを配設した冷却円筒の上端開口
と連通して、横向き放出筒を有する案内筒を設け、放出
筒の開口端部を貯氷庫の内方に突出して配設して成る製
氷装置において、前記放出筒を下向きに傾斜して形成し
、該放出筒の開口端部外周を他の部分より大径に形成し
、放出筒の小径部及び前記案内筒の本体の周囲に断熱材
を巻回したことを特徴とするオーガ式製氷装置。1. A guide cylinder having a horizontal discharge tube is provided in communication with the upper end opening of the cooling cylinder in which an ice cutting auger is arranged, and the open end of the discharge tube is arranged so as to protrude inward of the ice storage. In the ice making device, the ejection tube is formed to be inclined downward, the outer periphery of the open end of the ejection tube is formed to have a larger diameter than other parts, and the circumference of the small diameter part of the ejection tube and the main body of the guide tube is formed. An auger-type ice-making device characterized by having a heat insulating material wrapped around it.