DE1259360B - Electrothermal immersion cooler - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN PATENT OFFICE

EDITORIAL

Int. CL:

Number:
File number:
Registration date:
Display day:

F25b

German class: 17 a-20

1259 360
W 341891 a / 17 a
March 28, 1963
January 25, 1968

The invention relates to an electrothermal immersion cooler, in particular for cooling smaller ones Amounts of liquid.

An immersion cooler which utilizes the Peltier effect is known whose one is provided with a handle The immersion part consists of an approximately tubular housing enclosing the Peltier elements, which is connected to the cold side of the Peltier elements with good thermal conductivity, the power supply to the Peltier elements via a flexible cable penetrating the handle.

A cooling device for refrigerators has also already been proposed, which is characterized by that they have one at a distance from the housing wall on the warm side of the Peltier elements arranged heat transfer device with an axially penetrating the housing chamber, an inner portion containing coolant flow path to remove heat from the electrothermal Derive cooling device, and that this inner section with the leading out of the housing Pipeline section is connected, which is used for heat transfer coolant in and out of the inner section.

With the invention, a portable, simple, easy to handle and operate, handy, especially useful for cooling small amounts of liquid and, for example, to the Water pipe connectable immersion cooler are created. Since besides the creation of this posed Execution conditions also require intensive heat transfer in the smallest of spaces should, considerable technical difficulties arose, which, however, were solved according to the invention were that in a known manner, the cooling of the warm side of the Peltier elements by a Cooling liquid, in particular tap water, takes place, the heat exchanger serving for cooling from a metal sleeve axially penetrating the housing and containing a coolant flow path consists, which are connected to the warm side of the Peltier elements with good thermal conductivity and to the handle penetrating pipes for the supply and discharge of the coolant is connected.

The invention is illustrated below with reference to the drawing described. In the drawing is

F i g. 1 is a view of a new immersion cooler with a vessel that is one of the immersion cooler contains cooling liquid,

F i g. 2 an enlarged longitudinal section through the immersion cooler,

Electrothermal immersion cooler

Applicant:

Whirlpool Corporation,

Benton Harbor, Mich. (V. St. A.)

Representative:

Dr.-Ing. H. Ruschke and Dipl.-Ing. H. Agular,

Patent attorneys,

8000 Munich, Pienzenauer Str. 2

Named as inventor:

Everett F. Cox, Berrien, Mich. (V. St. A.)

Claimed priority:

V. St. v. America May 28, 1962 (198117)

F i g. 3 is an enlarged view of the handle end of the immersion cooler and FIG

F i g. 4 is an enlarged cross-section along line 4-4 of FIG.

In the embodiment shown in the drawing and to be evaluated as an explanatory example, the long immersion cooler 10 has an immersion part 11 to be immersed, which is immersed in a liquid mass 12 present in the container 13. The immersion cooler 10 also has a handle 14 which is grasped by the hand H of a person in order to facilitate the immersion of the immersion part 11 in the liquid. The immersion part 11 accommodates several conventional Peltier elements 15, which are supplied with power from an electrical cable 16 which passes through the handle 14 in the longitudinal direction. The immersion part 11 also contains a cooling device in the form of a hollow metal sleeve 17, through which the coolant can circulate by means of two tubes 18 and 19, which also pass through the handle 14 in the longitudinal direction. The electrical cable 16 is connected to a conventional direct current source (not shown). The tubes 18 and 19 are connected via flexible hoses 20 to a source of a cooling liquid, for example to the water pipe (not shown) and to a drain.

The immersion part 11 of the cooler has an outer housing 21 made of a suitable thermally conductive one Metal, such as steel, which, as shown in Fig. 4, has an octagonal cross-section. The far end of the Housing 21 is through a plug 22 made of sealing compound, ζ. B. sponge seal, and by a

709 720/79

Sheet metal cap 23 closed, which is preferably welded into the end 24 of the housing. The opposite End of the housing 21 also carries a sealing plug 26, which with the individual Conductors 27 and 28 of the cable 16 and the tubes 18 and 19 is penetrated. The metal sleeve 17 extends between the plugs 22 and 26 in the axial direction over the space present in the housing 21 29. The insulating plugs 22 and 26 can be formed in place by foaming after the Peltier elements 15 and the metal sleeve 17 have been inserted into the housing 21.

The metal sleeve 17 (Figs. 2 and 4) has two on opposite sides of a central partition 32 Coolant flow paths 30 and 31 through which the coolant flows. The partition 32 ends just before the distal end wall 33 of the sleeve 17 to establish a connection between the coolant flow paths 30 and 31 at the distal end of the sleeve 17 to form. Like F i g. 2 shows the tube 18 is over an am opposite end of the sleeve 17 existing cover 34 connected to the flow path 30, and the tube 19 is connected to the flow path 31 via the cover 34, so that the coolant, z. B. water, from the pipe 18 via the flow path 30 around the distal end of the partition 32 around in the flow path 31 and out of the flow path 31 to the pipe 19 can flow in this way to close the circular path over the immersion cooler 10.

The Peltier elements 15 (Fig. 4) are long pieces of rectangular cross-section that extend between the flat sections 35 of the housing 21 and the opposite flat sections 36 of the Metal sleeve 17 are in thorough heat transfer contact with sleeve 17. By expedient electrical excitation of the Peltier elements 15 can be their outer section (FIG. 4) as a heat absorbing device serve, which absorbs heat from the liquid 12 via the housing 21. The inner section of the Peltier elements 15 can consist of consist of a heat transmission means that the heat energy from the Peltier elements 15 via the Metal sleeve 17 directs the coolant flowing in passages 30 and 31. In the illustrated Execution, four such Peltier elements 15 are available. The metal sleeve 17 is in cross section rectangular, and the Peltier elements have a width substantially equal to the planar sections of the housing 21, which is octagonal in cross section. However, other cross sections of the housing can also be used and the sleeve 17 can be used, namely cylindrical cross-sections or polygonal cross-sections, which do not have the octagonal shape shown. The Peltier elements 15 (FIG. 4) can be inside the housing 21 by connecting wires 7 to be connected to the electrical circuit between the Close ladders 27 and 28.

The handle 14 can consist of a tubular plastic part, one end of which 38 on The end 25 of the housing 21 is attached by means of a screw connection 39 fastened to the housing end 25 is. The handle end 38 is screwed onto the screw connection 39, and a sealing ring 40 is arranged, which seals the handle and the screw connection 39. The opposite end 41 of the The handle 14 is closed by a cap 42 attached to the tubes 18 and 19 and the cable 16 is enforced.

In use, the immersion cooler 10 is in the form shown in FIG. 1 with the immersion part 11 immersed in the liquid to be cooled, the user holding the immersion cooler 10 by the handle 14. The cable 16 is connected to a suitable power source (not shown) for the Peltier elements to excite. The tubes 18 and 19 are connected to a circulating coolant via hoses 20, z. B. water connected, which flows through the sleeve 17. Heat is generated from the Peltier elements of the liquid 12 and is transferred into the cooling water that passes through the sleeve 17 circulates. The heat is thus dissipated from the immersion cooler 10. Cooling the liquid 12 can be accelerated and facilitated by the fact that the immersion part 11 is used to stir the liquid is used simultaneously with the cooling of the liquid.

The immersion cooler 10 is an economically beneficial simple device that allows the cooling of Liquids or the like facilitated and particularly advantageous for cooling small amounts of liquid can be used e.g. B. od for cooling beverages in cups. Like.

Claims (1)

Claim: Electrothermal immersion cooler, especially for cooling small amounts of liquid, its with a handle provided immersion part made of a Peltier element enclosing, for example There is a tubular housing, which is connected to the cold side of the Peltier elements in a way that conducts heat well is, the power supply to the Peltier elements via a handle penetrating flexible cable takes place, characterized in that the cooling of the warm side of the Peltier elements in a manner known per se (15) is carried out by a cooling liquid, in particular tap water, the for The heat exchanger (36) used for cooling consists of a one axially penetrating the housing (21) Coolant flow path (30,31) containing metal sleeve (17) is made with the warm side the Peltier elements (15) connected with good thermal conductivity and penetrating to the handle (14) Pipes (18,19) for the supply and discharge of the coolant is connected. Documents considered: German utility model No. 1 760 240; U.S. Patent No. 413 136; Journal »Kältetechnik«, issue 3, 1962, pp. 81 to 85. 1 sheet of drawings 709 720/79 1.68 © Bundesdruckerei Berlin