US2045657A

US2045657A - Heat exchange apparatus

Info

Publication number: US2045657A
Application number: US16207A
Authority: US
Inventors: Karmazin John
Original assignee: KARMAZIN ENGINEERING Co
Current assignee: KARMAZIN ENGINEERING Co
Priority date: 1935-04-13
Filing date: 1935-04-13
Publication date: 1936-06-30
Anticipated expiration: 1953-06-30

Description

June 30, 1936. J KARMAZgN 2,045,657

HEAT EXCHANGE APPARATUS Filed April 15, 1935 2 Sheets-Sheet 1 INVENTOR. N k/IE/Vfl 2 ,1

h MQQL ATTORNEYS June 3Q, 1936. J. KARMAZIN HEAT EXCHANGE APPARATUS 2 Sheets-Sheet 2 Filed April 15, 1935 ATTORNEYS Patented June 30,1936

, UNITED STATES HEAT EXCHANGE APPARATUS John Karmazin, Huntington, Ind., assignor to Karmazin Engineering Company, a. corporation of Michigan Application April 13, 1935, Serial No. 16,207

. Claims.

This invention relates to refrigerating apparatus and more particularly to a novel heat exchange structure by which greater efficiencies in heat transfer between two fluids may be accom- 5 plished.

It is an object of this invention to provide a heat exchange device for refrigerating apparatus and for other uses which is formed from a plurality of sheet metal fins having integral tube forming portions thereon by which the fins are nested together to provide a heat exchange structure of the fin and tube type.

More particularly, it is an object of this invention to provide such a structure with means for increasing emciency in heat transfer, and to provide deflecting means within the tubes of the heat exchange device tending to direct the course of the fluid within the tube toward the surface of the tube exposed to incoming air or other fluid 9 flowing around the tubes.

Further objects and advantages of the present invention will be apparent from the following description, reference being had to the accompanying drawings wherein a preferred form of the present invention is clearly shown.

In the drawings:

Fig. 1 is a front view of a heat exchange structure embodying the present invention;

Fig. 2 is an end view of a heat exchange structure embodying the present invention;

Fig. 3 is a view corresponding to Fig. 1 on a larger scale showing a portion of the device in cross section;

- Fig. 4 is a top view of one of the fins from which the structure of Fig. 1 is formed; and

Fig. 5 is a cross section on line 5-5 of Fig. 1.

Referring now to Fig. 1, there is shown a heat exchange structure comprising a plurality of fins it having tapered tube forming portions I2 integrally formed therein by which a plurality of fins may be nested together to provide the core of the heat exchange device. The tubes which are formed by the portions I? may be connected together in any desired circuit relation by'headers it at the top and bottom of the core. The

headers l4 comprise plates i6 and I8 which are formed similarly to the fins It and

drawntroughlike members

20 and 22 which are secured to the plates i6 and I8 respectively by overlapping seams 24-46 around their peripheries. Suitable inlet and outlet connections 28 are provided in the headers l4.

The structure of the fins is clearly illustrated 5 in Figs. 3 to 5. The fins are formed by a. stamp- REISSUED JAN 8 01940 ing operation to provide a plurality of tapered tube forming portions 52 which are elongated transversely of the heat exchange device. If desired, a stiffening ridge may be formed along the side wall of each tube portion 62 in order to give added rigidity to the fin structure. A slit 3i between each tube prevents stretching of the fin metal to the point of rupture. After the fins are formed to provide the tube forming portions 62 with a closed bottom 32, the bottom is 10 perforated and formed ,to provide apertures 3G in either end of the portion l2 and intermediate apertures 36. The material of the apertures 36 is bent downwardly to provide a deflector 38 at one side of each of the apertures 36. It will be 15 noted that the disposition of the deflectors 38 is such that all face in the same direction and tend to deflect fluid flowing through the tube diagonally thereof. The entire structure thus described is assembled by nesting the fins together and sealing the structure in any well known man ner such as by soldering or welding.

In operation, it being assumed that the apparatus is to be used for a refrigerant condenser, compressed gaseous refrigerant may be conducted to the upper header M. The refrigerant flowing downwardly through the tubes of the core passes through the apertures 3t! and :36. In pass ing through the apertures 36, the deflectors 38 direct the down-flowing refrigerant toward the left hand side of the device as viewed in Fig. 5. The direction of the flow of cooling medium, for example, air, through the space between the fins and around the tubes is preferably from left to right in Fig. 5 so that the refrigerant beingcondensed is deflected constantly toward the end of the tube which faces the stream of incoming air. Thus, a heat exchange structure is provided by which the fluid flowing in the tubes is constantly urged toward the end of the tube which lies adjacent the incoming fluid which flows around the tube. Inasmuch as there are ordinarily a large number of such deflectors within a single tube, it will be seen that substantially all of the fluid 45 which passes through the tube is brought in contact at one time or another with the wall of the tube which, is in contact'with the incoming me dium flowing outside of the tube.- In this way, the efficiency of heat transfer is increased. While 50 the invention has been disclosed in connection witha particular application thereof, namely: to the art of refrigeration, it will be understood that the invention may be incorporated in heat exchangers designed for other purposes. 55..

While the form of embodiment of the present invention as herein disclosed constitutes a preferred form, it is to be understood that other forms might be adopted, all coming within the scope oi the claims which follow.

What is claimed is as follows:

1. A heat exchanger comprising a plurality oi nested fln elements each having integrally formed therewith a plurality of tapered tube-forming portions, said portions being elongated in the direction of fluid flow outside the tubes, each tubei'orrning portion having an apertured bottom, and means associated with a plurality oi the apertures in the bottom of each tube-forming portion for deflecting fluid flowing through the tubes in the direction of the incoming fluid passing around said tubes.

2. A heat exchanger comprising a plurality of nested fin elements each having integrally formed therewith a plurality oi tapered tube-forming portions, said portions being elongated in the direction of fluid flow outside the tubes, each tubei'orming portion having an apertured bottom, and means associated with a plurality of the apertures in the bottom 01' each tube-forming portion and integrally formed from the material of the fin for deflecting fluid flowing through the tubes in the direction of the incoming fluid passing around said tubes.

3. A heat exchanger comprising a plurality oi. nested fln elements each having integrallyiormed therewith a. plurality oi tapered tube-forming portions, said portions being elongated in the direction of fluid flow outside the tubes, each tubeiorming portion having an apertured bottom, and means associated with a plurality of the apertures in the bottom of each tube-forming portion and integrally formed from the material of the fln ior deflecting fluid flowing through the tubes in the direction in which said tube forming portions are elongated.

4. A heat exchanger comprising a plurality of nested fin elements each having integrally formed therewith a plurality of tapered tube-forming portions, said portions being elongated in the direction oi fluid flow outside the tubes, each tubeiorrning portion having a plurality of deflectors positioned therein to direct fluid diagonally through the tube and toward the incoming fluid flowing around the tube.

5. A heat exchanger comprising a plurality oi! nested fin elements each having integrally formed therewith a plurality of tapered tube-forming portions, said portions being elongated in the direction of fluid flow outside the tubes, each tubeforming portion having an apertured bottom wall, and certain of said tube-forming portions having a deflector Iormed integrally therewith for directing fluid diagonally through the tube and toward the incoming fluid flowing through the tube.

JOHN KARMAZIN.