US2275522A - Ice tray - Google Patents

Ice tray Download PDF

Info

Publication number: US2275522A
Authority: US; United States
Prior art keywords: grid; sections; ice; relative; pins
Prior art date: 1937-01-16
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

US120897A

Other languages

English (en)

Inventor

Harvey D Geyer

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.)

Motors Liquidation Co

Original Assignee

General Motors Corp

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.)

1937-01-16

Filing date

1937-01-16

Publication date

1942-03-10

1937-01-16 Application filed by General Motors Corp filed Critical General Motors Corp

1937-01-16 Priority to US120897A priority Critical patent/US2275522A/en

1938-01-15 Priority to DEG97019D priority patent/DE684869C/de

1942-03-10 Application granted granted Critical

1942-03-10 Publication of US2275522A publication Critical patent/US2275522A/en

1959-03-10 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

Images

Classifications

- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C1/00—Producing ice
- F25C1/22—Construction of moulds; Filling devices for moulds
- F25C1/24—Construction of moulds; Filling devices for moulds for refrigerators, e.g. freezing trays
- F25C1/246—Moulds with separate grid structure

Definitions

This invention relates to ice trays or other freezing containers suitable for use with household refrigerators. d
An object of this invention is to provide an improved form of grid unit having relatively movable interconnected sections which may be readily relatively moved by a bending flexure or by twisting or by a stretching distortion of the grid unit as a whole to facilitate the removal of the contained ice blocks or other frozen contents.
An important feature of the grid of this invention is the yielding interconnection between the relative rigid sections thereof which permits both a relative hinge movement and a relative translation movement between two interconnected sections.
the preferred form of connection permits the grid unit to be stretched as a whole, or to be readily twisted as a whole, or to be flexed or bent as 'a whole in any direction, whereby to facilitate the removal of the frozen contents thereof.
Another object is to provide a grid unit having at least two relative rigid grid sections normally retained in their relative freezing positions by means of a resilient rubber connector which by distortion thereof permits relative movement between the interconnected sections to facilitate the removal of the frozen contents of the grid.
a more specific object is to provide a grid unit having at least two grid sections interconnected by means of a resilient rubber hinge pin which permits both relative hinge movement and relative translation movement between the connected sections by distortion of the resilient rubber pin.
the resilient rubber connector is the function of the resil-, ient rubber connector to urge the connected sections to return to their normal or non-distorted relative positions after having been distorted to remove the ice blocks.
Fig. 1 is a plan view of a freezing tray having a grid therein made according to this invention
Fig. 2 is a section on line 2-2 of Fig. 1, showing the preferred form of connection between the separate metal grid sections.
Fig. 3 is an exploded view which illustrates how the separate grid sections may be. assembled together by the resilient rubber pins to form a flexible unitary grid.
Reference numeral l0 designates the intermediate metal grid sections
ll designates one end grid section having no handle thereon
.and I2 designates the other and grid section having a handle l3 thereon. All these grid sections are illustrated as metal stampings from flat sheet metal.
Each section III is of approximate Z- shape having a central longitudinal wall 20 and two transverse walls 2i.
Upper and lower hinge pin sockets 22 and 23- are formed at one corner and a central hinge pin socket 2! is formed at the other corner of each section 10.
the sockets 24 of one section Ill mate with the sockets 22 and 23 of the next adjacent section 10, as will be readily understood from the drawing.
end section II is provided with a central hinge may be distorted in any desired manner and hence does not require a clearance gap for its movement to permit relative translation movement between the two grid sections connected thereby, it will readily perform its functions even tho solidly embedded in the ice.
asmall vertical clearance gap v25 between the upper and lower ends of the sockets 24 andtheir mating sockets 22 and 23 respectively, as illustrated in Fig. 2.
These clearance gaps 25 permit the various grid sections it, II and I2 to be readily relatively pivoted eitherup ordown or laterally, that is out of their normal horizontal plane, by distortion of the resilient rubber hinge pins 30.
clearance gaps 25 together with the distortable pins 30 permit the grid as a whole but obviously if desired the individual grid secflexible per se simply by using thinner or more resilient metal sheets from which these stampings may be made.
the resilient rubber hinge pins 30 are illustrated as made square in section and fit tightly tions may also be made slightly flexible or very within the correspondingly shaped hinge sockets 22, 23, and 24. To assemble the parts of the grid, the various hinge sockets of the grid sec tions are nested together so as to register properly and then the pins 30 are pulled or otherwise forced into final position as shown in Fig. 2.
pins 30 are positively retained in their final position by small metal lugs 26 which are formed integral with the various grid sections (as shown in Fig. 3) and are bent to a horizontal position after pins 30 are inserted in place, as clearly illustrated in Fig. 2. It will now be clear that each resilient pin 30 will permit a relative hinging movement about the axis of the pin between its two connected grid sections by an internal twist in the resilient rubber, and that when the twisting force ceases the resiliency of the rubber pins will urge the grid sections to return to their normal relative positions as shown in Fig. 1.
pins 30 and their sockets of some other non-round cross section (such as oval or elongated rectangle in section), or pins 30 may even be made round in section if they are given such a tight fit within the metal sockets as to substantially prevent rotary slipping in their. sockets.
each grid section is permitted a substantial universal movement relative to its connected section or sections simply by a distortion of the rubber pins 30, as mentioned above. In all cases when sockets. In other words each'grid section may.
this invention provides a universally flexible metal grid which may be easily highly distorted to facilitate theremoval of its frozen contents, and one which nevertheless returns to its normal shape and dimensions after such high distortion thereof and with a minimum probability of being given a permanent set in its distorted form.
the grid as a whole is simply set within its pan 9, which preferably is drawn from level, and the ice allowed to freeze and solidly embed the grid in the ice. If the pan m be only slightly flexible, the grid and its ice contents .other support with the other hand.
the grid and ice unit may be grasped with both hands and readily twisted, or bent up or down, or elongated, or given any combination of these distortions, to loosen the frozen bond between the ice blocks and the grid. When so distorted the ice blocks will either fall out or may be readily picked out with the fingers.
ancdizedjaluminum grid sections When ancdizedjaluminum grid sections are used they are preferably coated with a high melting point wax which will greatly facilitate the separation of the solid ice blocks from the metal surfaces and hence facilitate the above described operation of removing the ice blocks from the grid.
Such waxing'treatment may be given by im- -mersing the separate grid sections, after being anodized in a known manner with the important exception of omitting the usual water-sealing operation, in the molten wax (preferably consisting of 50% parafiin wax and 50% carnauba wax or other wax having a similarly high melt-. ing point) for about 15 minutes and/or under such conditions as will permit the molten wax to thoroughly impregnate or be firmly bound by the highly activated, aluminum oxide coatingobtained by the anodizing treatment.
molten wax preferably consisting of 50% parafiin wax and 50% carnauba wax or other wax having a similarly high melt-. ing point
the waxing'treatznent is preferably performed very shortly after the completion of the anodizing treatment, since when the usual water-sealing treatment after anodization is omitted as here recommended, the anodic coating of aluminum oxide is so highly activated that it will readily become permanently stained or blemished by handling with the hands or by coming into contact with any discoloring substance containing moisture and will even absorb moisture from the air upon standing and so partially water-seal itself.
My discovery teaches that if the waxing process is carried out shortly after 2,275,522 ing treatment may be substituted for the usual water-sealing step following the anodizing treatment to produce a very permanent wax film upon or wax impregnation of an aluminum surface. This wax application or impregnation then performs the function of the customary water-sealing step in rendering the anodic coating stainproof from theusual discoloring substances containing moisture.
a grid for an ice-freezing container comprising: two metallic sections each embodying at least one partition wall, said sections having a hinge connection normally embedded in the solid ice after the freezing of the container contents, said hinge connection having a snugly fitting resilient rubber hinge pin which permits easy relative hinge movement by torsional distortion thereof even though embedded in hard-frozen ice, said resilient hinge pin also serving to urge said sections to return to their normal relative position after distortion thereof.
a grid for an ice-freezing container comprising: two relatively movable substantially rigid metallic partition units, and a resilient rubber hinge pin for retaining said units in their normal relative freezing positions, said rubber pin being normally embedded in the solid ice after the contents are frozen and serving to readily permit both relative hinge movement and relative separating movement between said rigid units by a compound twisting and shearing distortion of said pin while embedded in the solid ice, whereby to facilitate removal of the frozen contents of said grid.
a grid for an ice-freezing container comprising: two relatively movable substantially rigid metallic partition units, and a resilient rubber hinge pin normally retaining said partition units in their relative freezing positions and normally embedded in the solid ice after the freezing of the contents, said rubber hinge pin being readily distortable even though embedded in the solid ice to permit relative separating movement between said rigid partition units.
a grid for a freezing container comprising: a plurality of substantially rigid relatively movable metal sections forming partition walls of the grid, said rigid sections having interfitting portions and being yieldingly retained in their normal freezing relative positions by resilient rubber,
a gridfor a freezing container comprising: a series of relatively movable substantially rigid metal sections each having a cross partition portion and a longitudinal partition portion thereon, said sections having interfitting portions and being yieldably retained in their normal assembled relationship by resilient rubber members associated with said interfitting portions in such manner as to readily permit a relative separating movement between said rigid sections by distortion of said rubber members.

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Engineering & Computer Science (AREA)
Physics & Mathematics (AREA)
Mechanical Engineering (AREA)
Thermal Sciences (AREA)
General Engineering & Computer Science (AREA)
Table Equipment (AREA)
Rigid Containers With Two Or More Constituent Elements (AREA)

US120897A 1937-01-16 1937-01-16 Ice tray Expired - Lifetime US2275522A (en)

Priority Applications (2)

Application Number	Priority Date	Filing Date	Title
US120897A US2275522A (en)	1937-01-16	1937-01-16	Ice tray
DEG97019D DE684869C (de)	1937-01-16	1938-01-15	Unterteilungseinsatz fuer den Inhalt eines Eiskaestchens

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
US120897A US2275522A (en)	1937-01-16	1937-01-16	Ice tray

Publications (1)

Publication Number	Publication Date
US2275522A true US2275522A (en)	1942-03-10

Family

ID=22393156

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US120897A Expired - Lifetime US2275522A (en)	1937-01-16	1937-01-16	Ice tray

Country Status (2)

Country	Link
US (1)	US2275522A (de)
DE (1)	DE684869C (de)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2477283A (en) *	1945-08-08	1949-07-26	Cellon Corp	Ice tray grid
US2874552A (en) *	1957-11-12	1959-02-24	Gen Motors Corp	Freezing device

1937
- 1937-01-16 US US120897A patent/US2275522A/en not_active Expired - Lifetime
1938
- 1938-01-15 DE DEG97019D patent/DE684869C/de not_active Expired

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2477283A (en) *	1945-08-08	1949-07-26	Cellon Corp	Ice tray grid
US2874552A (en) *	1957-11-12	1959-02-24	Gen Motors Corp	Freezing device

Also Published As

Publication number	Publication date
DE684869C (de)	1939-12-07

Publication	Publication Date	Title
US2083081A (en)	1937-06-08	Freezing mold
JPS5918563B2 (ja)	1984-04-27	支持用クリツプ
Meier	1977	Nations or gentiles in Matthew 28: 19?
US2275522A (en)	1942-03-10	Ice tray
US2433210A (en)	1947-12-23	Ice cube tray
DE2640587A1 (de)	1977-03-17	Befestigungsanordnung fuer an der innenwand eines kuehlschranks zu befestigende teile
US1771824A (en)	1930-07-29	Windshield-wiper blade
US2169295A (en)	1939-08-15	Shelf for refrigerators
US1947010A (en)	1934-02-13	Frozen confection
US3116506A (en)	1964-01-07	Unitary squeegee and wiper blade assembly embodying the same
US2606227A (en)	1952-08-05	Dust-sealed panel-mounted socket assembly
US1934556A (en)	1933-11-07	Squeegee
US2915769A (en)	1959-12-08	Windshield wiper blade
US2558015A (en)	1951-06-26	Ice release method and means
US1997793A (en)	1935-04-16	Refrigerating apparatus
US2293302A (en)	1942-08-18	Brush
US2188781A (en)	1940-01-30	Freezing tray
US1820221A (en)	1931-08-25	Freezing tray
US2032534A (en)	1936-03-03	Refrigerating apparatus
US2122937A (en)	1938-07-05	Freezing tray
US1820134A (en)	1931-08-25	Freezing container
US3178147A (en)	1965-04-13	Suspension eyelet device
US2484832A (en)	1949-10-18	Sharp freezing container
CN220233986U (zh)	2023-12-22	更换绝缘子用闭式卡具
US2444792A (en)	1948-07-06	Mold for freezing liquids and semiliquids

US2275522A - Ice tray - Google Patents

Info

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Images

Classifications

Definitions

Landscapes

Priority Applications (2)

Applications Claiming Priority (1)

Publications (1)

Family

ID=22393156

Family Applications (1)

Country Status (2)

Cited By (2)

Cited By (2)

Also Published As

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