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JPH0689974B2 - Ice machine - Google Patents
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JPH0689974B2 - Ice machine - Google Patents

Ice machine

Info

Publication number
JPH0689974B2
JPH0689974B2 JP31344987A JP31344987A JPH0689974B2 JP H0689974 B2 JPH0689974 B2 JP H0689974B2 JP 31344987 A JP31344987 A JP 31344987A JP 31344987 A JP31344987 A JP 31344987A JP H0689974 B2 JPH0689974 B2 JP H0689974B2
Authority
JP
Japan
Prior art keywords
ice
small ice
cells
small
groove
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 - Lifetime
Application number
JP31344987A
Other languages
Japanese (ja)
Other versions
JPH01155170A (en
Inventor
元 飯田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Daikin Industries Ltd
Original Assignee
Daikin Industries Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Daikin Industries Ltd filed Critical Daikin Industries Ltd
Priority to JP31344987A priority Critical patent/JPH0689974B2/en
Publication of JPH01155170A publication Critical patent/JPH01155170A/en
Publication of JPH0689974B2 publication Critical patent/JPH0689974B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Description

【発明の詳細な説明】 (産業上の利用分野) 本発明はマークやネームが一面に彫り込まれた角氷等氷
塊を量産し得る製氷機に関する。
Description: TECHNICAL FIELD The present invention relates to an ice-making machine capable of mass-producing ice blocks such as ice cubes with marks and names engraved on one surface.

(従来の技術) マーク入りの氷を製造するものとして特開昭57−196066
号に開示された製氷機があるが、これは円筒の内面側あ
るいは外面側に分散させて、マーク入りの氷に対応する
凹部を設けた回転形製氷ドラムを用いてなる構造であ
る。
(Prior Art) Japanese Patent Application Laid-Open No. 57-196066 for producing ice with marks.
There is an ice-making machine disclosed in Japanese Patent No. 3,058,046, which has a structure in which a rotary ice-making drum is provided which is dispersed on the inner surface side or the outer surface side of a cylinder and is provided with concave portions corresponding to ice with marks.

(発明が解決しようとする問題点) 上述する従来の製氷機は製氷ドラムに凹部を形成する手
段としてプレス成型によるものが普通であり、かかるプ
レス加工によったものは型が高くつくために、製氷機が
高コストとなり、量産したとしても角氷の原価が高くつ
くのが難点とされていた。
(Problems to be Solved by the Invention) In the above-mentioned conventional ice making machine, press molding is generally used as a means for forming a recess in the ice making drum. It was said that the cost of ice cubes was high and the cost of ice cubes was high even if they were mass-produced.

また、製氷ドラムを回転させながら製氷,離氷させる形
態をとっているので、装置が複雑化するのも問題であっ
た。
In addition, since the ice making drum is rotated and iced while being rotated, the device becomes complicated.

このような現状に対処して本発明は全体として簡単な構
造であって、しかも安価な製氷盤を装備し得ることによ
ってロゴタイプ入りの氷塊を低コストで量産可能ならし
めようとすることを目的とする。
In order to cope with such a current situation, the present invention has a simple structure as a whole, and an inexpensive ice making machine can be equipped to enable mass production of logotype ice blocks at low cost. And

(問題点を解決するための手段) そこで、本発明は実施例を示す図面により明らかなよう
に、アルミニウム合金等軽合金製の樋状をなし、底部か
ら前面開口に向け溝幅は僅かに漸増し、溝長は相等しく
て、底板内に冷却管挿通用の円柱状孔(6)が溝長方向
に貫通して設けられると共に、底部内面には文字,標章
等のロゴタイプ(7)が凸状に彫刻されてなり、溝長方
向に数行、溝幅方向に数列並べて配設した複数個の小氷
用セル(2),(2)…と、金属製の板からなり、前記
小氷用セル(2),(2)…に対し溝長方向の前・後両
端縁部に密着させ、また、行方向で隣り合う小氷用セル
(2),(2)…間に介在させて全幅に亘り横切って配
設してなり、前記円柱状孔(6),(6)に対応する位
置に穿設した円孔(8)を有する複数枚の仕切板
(3),(3)…と、溝幅方向で接して隣り合う小氷用
セル(2),(2)…の側壁間に形成され楔状空間に介
在充填せしめる複数個の断熱材(4),(4)…と、前
記円柱状孔(6)及び前記円孔(8)に直挿通し拡管処
理を行って各小氷用セル(2),(2)…の行列配置を
固定せしめると共に、冷却作用をなす冷却管(5)とに
より小氷室を多数有する製氷盤(1)を構成してなり、
前記各小氷用セル(2),(2)…の前面開口を下向き
にして配設せしめた構成を特徴とする。
(Means for Solving the Problems) Therefore, as is clear from the drawings showing the embodiments, the present invention forms a trough shape made of a light alloy such as an aluminum alloy, and the groove width slightly increases from the bottom to the front opening. However, the groove lengths are the same, a cylindrical hole (6) for inserting a cooling pipe is provided in the bottom plate so as to penetrate in the groove length direction, and a logotype (7) for characters, marks, etc. is formed on the inner surface of the bottom. A plurality of small ice cells (2), (2), which are engraved in a convex shape and are arranged side by side in several rows in the groove length direction and several columns in the groove width direction, and a metal plate, The small ice cells (2), (2), ... Are closely attached to the front and rear end edges in the groove length direction, and are interposed between the adjacent small ice cells (2), (2). A plurality of sheets having a circular hole (8) formed at a position corresponding to the columnar holes (6) and (6), which are arranged across the entire width. A plurality of heat insulating materials formed between the partition plates (3), (3), ... And the side walls of the adjacent small ice cells (2), (2) ... (4), (4) ..., and the columnar holes (6) and the circular holes (8) are directly inserted to perform pipe expansion processing to form a matrix arrangement of the small ice cells (2), (2). An ice making plate (1) having a large number of small ice chambers is constituted by a cooling pipe (5) which is fixed and which has a cooling function,
The small ice cells (2), (2) ... Are arranged with their front openings facing downward.

(作用) 小氷用セル(2)は前面開口の方が底部に比べて広溝幅
の樋状であるので、ロゴタイプ(7)を浮き上がらせて
彫り込むに際し彫刻用錐先を前面開口及び両側部開口か
ら底部の隅々まで確実に届かせることが可能で正確な活
字等の彫刻を簡単に行い得る。
(Operation) Since the front opening of the small ice cell (2) has a gutter shape with a wider groove width than the bottom, when engraving with the logotype (7) raised, the engraving tip is used as the front opening and It is possible to reliably reach from the openings on both sides to every corner of the bottom, and it is possible to easily perform accurate engraving of typefaces.

しかも多数の小氷用セル(2),(2)…を仕切板
(3),(3)…と一体させて固定するのに、冷却管
(5)の挿通及び拡管で容易に行える。
In addition, a large number of small ice cells (2), (2) ... Can be fixed integrally with the partition plates (3), (3) ... By inserting the cooling pipes (5) and expanding the pipes.

また、抜き方向にロゴタイプ(7)を形成しているので
離氷に際して引つ掛る個所が無く確実に離氷できる。
Further, since the logotype (7) is formed in the pulling direction, there is no place to be caught at the time of ice removal, so that the ice can be released reliably.

(実施例) 以下、本発明の実施例を添付図面にもとづいて説明す
る。
(Example) Hereinafter, an example of the present invention is described based on an accompanying drawing.

本発明の例に係る製氷盤(1)は図示するように、複数
個の小氷用セル(2),(2)…と複数枚の仕切板
(3),(3)…と、複数個の断熱材(4),(4)…
と、冷却管(5)とにより構成される。
As shown in the drawing, an ice making plate (1) according to an example of the present invention includes a plurality of small ice cells (2), (2) ... And a plurality of partition plates (3), (3). Insulation (4), (4) ...
And a cooling pipe (5).

小氷用セル(2),(2)…は、アルミニウム合金等熱
伝導性の良い軽合金を素材とした引き抜き成形になり、
溝長の短い樋状をなした形状で、溝長方向の長さはどの
部分をとっても等しくて例えば45mmであり、一方、溝幅
方向の長さにおいては底部(例、25mm)から前面開口
(例、29mm)に向けて僅かに漸増する断面台形状をなし
た内部空間を有する。
The small ice cells (2), (2) ... are made by drawing using light alloys with good thermal conductivity such as aluminum alloys.
In the shape of a gutter with a short groove length, the length in the groove length direction is the same for all parts, for example, 45 mm, while the length in the groove width direction is from the bottom (eg, 25 mm) to the front opening ( (Eg, 29 mm) has an internal space with a trapezoidal cross section that gradually increases.

そして底部部分は厚肉に形成して溝長方向の中心線に沿
わせて冷却管挿通用の円柱状孔(6)を貫通して設けて
いる。
The bottom portion is formed thick and is provided along the center line in the groove length direction so as to pass through the cylindrical hole (6) for inserting the cooling pipe.

上記円柱状孔(6)は、厚肉部分の層内に設けられた両
端部のみ開口する孔であっても良く、また、図示例の如
き軸線方向のスリット状にさらに開口してなる構造のも
のであっても良い。
The cylindrical hole (6) may be a hole which is provided only in the both ends provided in the layer of the thick portion, and has a structure in which it is further opened in a slit shape in the axial direction as in the illustrated example. It may be one.

なお、(9)は空気抜け用の小孔で4個等の適宜個数底
部を貫通させて設けている。
In addition, (9) is a small hole for venting air and is provided by penetrating an appropriate number of bottoms such as four.

かく構成してなる小氷用セル(2)は尖鋭な錐先を有す
る彫刻用錐を使用して底部に文字,標章等のロゴタイプ
(7)を彫刻させているが、このロゴタイプ(7)は周
囲の地部分を彫り込みにより落とすことによって、マー
ク等を抜き方向に順応するよう凸状に浮上らせて彫って
おり、かかる彫刻手法は印判の自動彫刻を行う場合に採
用される一般的なものであって、前面開口及び両側開放
部が拡がっているので奥底の隅まで簡単に彫刻可能であ
る。
The small ice cell (2) thus constructed has a sculptured cone with a sharpened tip for engraving a logotype (7) such as letters and marks on the bottom. This logotype ( 7) engraves the surrounding ground part by engraving so that marks etc. are raised in a convex shape so as to adapt to the pulling direction, and this engraving method is generally used for automatic engraving of stamps. Since the front opening and the opening on both sides are expanded, it is possible to easily engrave the bottom corners.

上記小氷用セル(2),(2)…は複数(偶数)個を用
意して、それ等を溝長方向に数行(例、4行)、溝幅方
向に数列(例、4列)並べて配設せしめる。
A plurality (even number) of small ice cells (2), (2) ... are prepared, and these are arranged in several lines (eg, 4 lines) in the groove length direction and several lines (eg, 4 line) in the groove width direction. ) Arrange them side by side.

次に仕切板(3)は、金属例えばステンレスからなる2m
m程度の厚さの板体であって、第3図に示す如き短冊形
をなして、その必要枚数、即ち、小氷用セル(2)の行
数にIを加えた枚数(例、5枚)を小氷用セル(2),
(2)…の溝長方向の前・後両端縁部に密着させ、ま
た、行方向で隣り合う小氷用セル(2),(2)…間に
介在させて全幅に亘り横切らせて配設せしめる。
Next, the partition plate (3) is made of metal such as stainless steel and has a length of 2 m.
A plate having a thickness of about m and formed in a strip shape as shown in FIG. 3, and the required number of sheets, that is, the number of rows of the small ice cells (2) plus I (eg, 5 A small ice cell (2),
(2) is closely attached to both front and rear edges of the groove in the groove length direction, and is interposed between the small ice cells (2), (2), which are adjacent to each other in the row direction, and is arranged across the entire width. Set it up.

それ等仕切板(3),(3)…所定配設位置において縦
一線に並ぶ円柱状孔(6)に同軸で対応する個所に円柱
状孔(6)と等径をなす円孔(8)を所要個数、すなわ
ち、小氷用セル(2),(2)…の列数と同じで図示例
は4個穿設せしめて有する。
These partition plates (3), (3) ... A circular hole (8) having the same diameter as the cylindrical hole (6) at a location coaxially corresponding to the cylindrical hole (6) aligned in a vertical line at a predetermined arrangement position. Is the same as the required number, that is, the number of rows of the small ice cells (2), (2) ...

一方、断熱材(4)は、シリコーン樹脂等合成樹脂の成
型品になり、第2図に断面示してなる如く、小氷用セル
(2),(2)…を溝幅方向に側壁が略々密着するよう
並設した際に側壁間に形成される楔状の空間に対応する
形状であって、組立てのときに所定空間部に介在し充填
せしめる。
On the other hand, the heat insulating material (4) is a molded product of synthetic resin such as silicone resin, and the side walls of the small ice cells (2), (2) ... Each of them has a shape corresponding to a wedge-shaped space formed between the side walls when they are arranged in close contact with each other, and is inserted and filled in a predetermined space portion at the time of assembly.

このように行列配置した小氷用セル(2),(2)…と
その間に介在した仕切板(3),(3)…、断熱材
(4),(4)…が仮り組みされた状態において、銅管
からなる直状の冷却管(5),(5)…を、一線に揃わ
せた円柱状孔(6)及び円孔(8)に直線挿通した後、
行方向に並ぶ小氷用セル(2),(2)…及び仕切板
(3),(3)…を両端から挟みつけて密着した状態の
下で、前記冷却管(5),(5)…を順次又は一斉に拡
管処理すると、各部材(2)〜(5)は夫々密着一体化
するので、かくして複数個(16個)の製氷区画を有する
角氷製氷皿(1)が完成される。
In this state, the small ice cells (2), (2), ..., And the partition plates (3), (3), ..., The heat insulating materials (4), (4) ... In, after inserting the straight cooling pipes (5), (5) ... Of copper pipes into the cylindrical holes (6) and the circular holes (8) aligned in a straight line,
Under the condition where the small ice cells (2), (2) ... And the partition plates (3), (3) ... arranged in the row direction are sandwiched from both ends and closely adhered, the cooling pipes (5), (5) When the pipes are expanded in sequence or all at once, the members (2) to (5) are brought into close contact with each other, and thus the ice cube ice tray (1) having a plurality of (16) ice making sections is completed. .

この製氷盤(1)は小氷用セル(2),(2)…前面開
口が下向きになるよう配設せしめて、氷用低温原水を下
方から上向きに角製氷区画内に吹きつけながら冷却管
(5)によって氷点以下の温度に冷却させると、小氷用
セル(2),(2)…内に角氷が生長し、最終的に所定
のマーク等ロゴタイプ(7)が彫り込まれてなる台形状
の角氷が生成される。
This ice making plate (1) is provided with cells (2), (2) for small ice so that the front opening faces downward, and the low temperature raw water for ice is blown downward from above into the ice cube compartment while cooling pipes. When cooled to a temperature below the freezing point by (5), ice cubes grow in the small ice cells (2), (2), ... Finally, a logotype (7) such as a predetermined mark is engraved. Trapezoidal ice cubes are generated.

その後、冷却管(5)にホットガスを流す離氷サイクル
を行わせて角氷を小氷用セル(2),(2)…内から脱
落させればよく、その際、小氷用セル(2)の形状及び
ロゴタイプ(7)の突出形状が抜き方向に順応した形態
であるのでスムースな離氷が可能である。
After that, the ice cube may be made to flow through the cooling pipe (5) by an ice-breaking cycle to drop the ice cubes from inside the small ice cells (2), (2) ... At that time, the small ice cells ( Since the shape of 2) and the protruding shape of the logotype (7) are adapted to the pulling direction, smooth deicing is possible.

(発明の効果) 本発明は以上詳述した如く、小氷用セル(2)が取り出
し易い形状をなしているのと、ロゴタイプ(7)も同
様、抜き方向に順じた突出形状であるので、氷をロゴタ
イプ(7)が彫り込まれた姿で極めてスムースに製氷盤
(1)から取り出すことができる。さらに、冷却管
(5)の遊挿通と拡管との処理を行わせることによっ
て、各部材(2)〜(5)の一括組立てが可能であって
組み立てが頗る容易であり、さらにロゴタイプ(7)の
彫刻も治具を底部の隅まで到達させ得るので、加工も簡
単で正しい形態のロゴタイプ(7)が得られる。
(Effects of the Invention) As described in detail above, the present invention provides that the small ice cell (2) has a shape that is easy to take out, and the logotype (7) also has a protruding shape that follows the pulling direction. Therefore, the ice can be taken out from the ice making machine (1) very smoothly with the logotype (7) engraved. Further, by allowing the cooling pipe (5) to be loosely inserted and expanded, it is possible to assemble the members (2) to (5) in a lump and the assembly is easy, and the logotype (7) is used. Since the jig can also reach the corner of the bottom in the engraving of), the logotype (7) of the correct shape can be obtained by easy processing.

特に本発明は製造した氷塊に刻まれた印字,マーク等が
凹形であって、加圧を受け易い凸形状のものと違って他
の部分よりも遅れて融けるようになるのでイメージを長
い期間に亘って与え得る利点がある。
Particularly, in the present invention, the markings, marks, etc. engraved on the manufactured ice block are concave, and unlike the convex shape which is easily subjected to pressure, it melts later than other parts, so that the image can be displayed for a long period of time. There is an advantage that can be given over.

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

第1図は本発明の1実施例に係る製氷盤の背面図、第2
図は第1図におけるII−II線に沿う断面図、第3図は第
1図における仕切板の平面図である。 (1)……製氷盤、 (2)……小氷用セル、 (3)……仕切板、 (4)……断熱材、 (5)……冷却管、 (6)……円柱状孔、 (7)……ロゴタイプ、 (8)……円孔。
FIG. 1 is a rear view of an ice making machine according to an embodiment of the present invention, and FIG.
1 is a sectional view taken along the line II-II in FIG. 1, and FIG. 3 is a plan view of the partition plate in FIG. (1) ... ice making plate, (2) ... small ice cell, (3) ... partition plate, (4) ... heat insulating material, (5) ... cooling pipe, (6) ... cylindrical hole , (7) …… Logo type, (8) …… Circular hole.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】アルミニウム合金等軽合金製の樋状をな
し、底部から前面開口に向け溝幅は僅かに漸増し、溝長
は相等しくて、底板内に冷却管挿通用の円柱状孔(6)
が溝長方向に貫通して設けられると共に、底部内面には
文字,標章等のロゴタイプ(7)が凸状に彫刻されてな
り、溝長方向に数行、溝幅方向に数列並べて配設した複
数個の小氷用セル(2),(2)…と、金属製の板から
なり、前記小氷用セル(2),(2)…に対し溝長方向
の前・後両端縁部に密着させ、また、行方向で隣り合う
小氷用セル(2),(2)…間に介在させて全幅に亘り
横切って配設してなり、前記円柱状孔(6),(6)に
対応する位置に穿設した円孔(8)を有する複数枚の仕
切板(3),(3)…と、溝幅方向で接して隣り合う小
氷用セル(2),(2)…の側壁間に形成され楔状空間
に介在充填せしめる複数個の断熱材(4),(4)…
と、前記円柱状孔(6)及び前記円孔(8)に直挿通し
拡管処理を行って各小氷用セル(2),(2)…の行列
配置を固定せしめると共に、冷却作用をなす冷却管
(5)とにより小氷室を多数有する製氷盤(1)を構成
してなり、前記各小氷用セル(2),(2)…の前面開
口を下向きにして配設せしめたことを特徴とする製氷
機。
1. A trough shape made of a light alloy such as an aluminum alloy, the groove width is gradually increased from the bottom to the front opening, the groove lengths are equal, and a cylindrical hole for inserting a cooling pipe into the bottom plate ( 6)
Is formed so as to penetrate in the groove length direction, and a logotype (7) such as letters and marks is engraved in a convex shape on the inner surface of the bottom, and arranged in several rows in the groove length direction and several columns in the groove width direction. It comprises a plurality of small ice cells (2), (2) ... And a metal plate, and both front and rear edges of the small ice cells (2), (2) ... , And are arranged across the entire width by interposing between the small ice cells (2), (2) ... Adjacent to each other in the row direction, and the cylindrical holes (6), (6) ) And a plurality of partition plates (3), (3) having a circular hole (8) formed at a position corresponding to (4) and adjacent small ice cells (2), (2) in the groove width direction. A plurality of heat insulating materials (4), (4), which are formed between the side walls of the ... and interpose and fill a wedge-shaped space.
And, the columnar holes (6) and the circular holes (8) are directly inserted to perform tube expansion processing to fix the matrix arrangement of the small ice cells (2), (2) ... And to perform cooling action. The ice making plate (1) having a large number of small ice chambers is constituted by the cooling pipes (5), and the small ice cells (2), (2) ... Are arranged with their front openings facing downward. A characteristic ice machine.
JP31344987A 1987-12-10 1987-12-10 Ice machine Expired - Lifetime JPH0689974B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP31344987A JPH0689974B2 (en) 1987-12-10 1987-12-10 Ice machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP31344987A JPH0689974B2 (en) 1987-12-10 1987-12-10 Ice machine

Publications (2)

Publication Number Publication Date
JPH01155170A JPH01155170A (en) 1989-06-19
JPH0689974B2 true JPH0689974B2 (en) 1994-11-14

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
JP31344987A Expired - Lifetime JPH0689974B2 (en) 1987-12-10 1987-12-10 Ice machine

Country Status (1)

Country Link
JP (1) JPH0689974B2 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08178484A (en) * 1994-12-22 1996-07-12 Mac:Kk Method for manufacturing concave shaped ice
JP4983364B2 (en) * 2007-04-17 2012-07-25 パナソニック株式会社 Ice tray
JP7687075B2 (en) * 2021-06-17 2025-06-03 株式会社レゾナック Ice making heat exchanger and method of manufacturing ice making heat exchanger

Also Published As

Publication number Publication date
JPH01155170A (en) 1989-06-19

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