|Publication number||US1964890 A|
|Publication date||Jul 3, 1934|
|Filing date||Jun 23, 1931|
|Priority date||Jun 23, 1931|
|Publication number||US 1964890 A, US 1964890A, US-A-1964890, US1964890 A, US1964890A|
|Inventors||Charles R Neeson|
|Original Assignee||Baldwin Southwark Corp|
|Export Citation||BiBTeX, EndNote, RefMan|
|Referenced by (7), Classifications (8)|
|External Links: USPTO, USPTO Assignment, Espacenet|
C. R. NEESON CONDENSER Filed June 23, 1931 Patented July It), 1934 UNITED STATES PATENT OFFICE CONDENSER Charles R. Neeson, New Rochelle, N. Y., assignor, by mesne assignments, to Baldwin-Southwark Corporation, a corporation of Delaware Application June 23, 1931, Serial No. 546,288
Claims. (Cl. 257-246) 'I'his invention relates generally to condensers ment it is contemplated that a water velocity and more particularly to refrigerant condensers may be had in the neighborhood of 400 ft. per Vand a method of operation thereof. minute While the refrigerant such for instance In condensers for refrigerating purposes, paras ammonia may have a velocity as high as 2600 5 ticularly in commercial refrigeration, it is deft. per minute. The relative efliciency of my 60 sirable to have apparatus which is economical in arrangement compared to the prior devices is construction and operation, and easy to disreadily appreciated when it is considered that mantle for cleaning purposes. Efficiency in comthe velocity of the fluids is a factor in obtaining mercial refrigeration equipment is continually greater heat-transfer. In addition, by having a l0 becoming more important, and this can be partly greater rate of heat transfer the condenser may 65 accomplished in the condensers by maintaining be made small and therefore cheaper.. To acthe water'passages thereof clean. Itis essential complish the foregoing object in the specific in order that the water passages may be easily aspect of the invention as illustrated herein, the cleaned, or to encourage the operator to clean continuous spiral iin previously mentioned is arl the same, that the structure be so arranged that ranged to cause the water to be circulated with 70 the operator may have easy access to the internal a high rotational velocity around the outside of parts and passages. It is thus an object of my the refrigerant pipe. invention to provide an improved water cooled A still further and more specic object is to condenser which is simple in construction, ecopermit easy cleaning of'the circular water pasnomical in manufacture and maintenance, and sage formed by the iin and to accomplish this 75 yet has a high degree of efficiency. the condensing pipe is arranged to be bodily A further object is to provide an improved removed with the spiral ns from the outer cas arrangement between the cooling water passage ing, thereby leaving the water passage between and the condenser tube. In Ausual commercial successive coils of the n entirely open and easily forms of refrigerant condensers, the compressed accessible. 80
gas from the refrigerating compressor is con- Other objects and advantages will be underducted into a relatively large tank through which stood by those skilled in the art from the followcooling water tubes pass. The tubes by having ing description of the accompanying drawing open ends may be easily cleaned, but such an wherein 3o arrangement is expensive due to the multiplicity Fig. 1 is a longitudinal section through the 85 of water cooling pipes and to the size of `the condenser, the refrigerant-pipe and circular ns condenser. In my improved condenser, however, thereof being shown in elevation; and I have provided a very simple arrangement com- Fig. 2 is a transverse section taken on line prising, specifically, a single outer tubular water 2-2 of Fig. 1.
casing such as a standard piece of pipe provided In the "drawing there is shown, merely for 90 with a water inlet and outlet, a condenser tube purpose of illustrating one specific embodiment or pipe extending `through said casing and sef which the invention may take, an outer pipe or cured in removable end`closures for the outer casing 1 having condensing water inlet and outcasing, and flow directing and heat transfer elelet pipe connections 2 and 3 welded or otherwise` ments, preferably in the form of a continuous suitably secured to said outer pipe 1. A con- 05 spiral sheet metal 1in, carried by the outside of densing tube 4, in which the refrigerant such for the condenser pipe and within the outer water instance as ammonia is condensed, is received pipe. in a suitable recess of head 5 and welded It is a further object to provide an improved thereto at 6, the. head having a suitable arrangement whereby favorable efficiency will be opening '7 communicating with pipe 4. It 100 obtained, and in one specific aspect of the invenwill be noted that this head has a flange tion this is accomplished by providing an arsomewhat larger than the outside diameter of rangement whereby the cooling water and the pipe 1 and suitable packing is interposed beinflowing refrigerant gas to be condensed have tween the inside of said flange and thebeveled very material velocities. For instance it has end of pipe l. The other end of the condenser 105 heretofore been the practice to have a cooling tube is similarly secured in a head 8, whose maxwater velocity of say in the neighborhood of imum outer diameter is preferably slightly less ft. per minute while the ammonia gas flows than the inner diameter of pipe 1, thereby perat so low a velocity that it is practically zero. mitting this head with the condenser tube to be 557On the other hand with my improved arrangedrawn through theH left end of pipe 1. How- 11o ever, to secure the condenser tube and heads in position, a nut 9 has threaded engagement with head 8, thereby permitting the two heads to be drawn tightly against the packing interposed at each end of pipe 1 while the welded joints between the condenser pipe 4 and the heads 5 and 8 insure against leakage of water into the refrigerant condenser pipe 4 or escape of refrigerant gas or liquid into the water section.
The refrigerant outlet pipe 10 has communication with the condenser pipe at a point offset from its center, thereby permitting the condensed refrigerant to easily flow from the condenser pipe and to also permit the outlet 10 to be completely sealed by a relative small amount of liquid refrigerant, thereby preventing flow of gas into the outlet. It will, of course, be understood that in the preferred operation, this de-v vice is slightly inclined with the outlet 10 at the lowest point whereby the liquid refrigerant will assume a level 12. Any suitable valve mechanism 13 may be connected to pipe 10, this valve being of such exterior form that it may be drawn through pipe 1 when nut 9 is removed, it being understood that this nut or removable flange is of sufficient internal diameter as to pass over even the largest portion of the valve or its operating handle. A suitable gas inlet pipe 14 having a screwed on flange 16 is connected to the inlet head 5 which is provided preferably with an annular sealing groove 15. The flange 16 carrying an annular flange which fits into a groove 15, is clamped to the head 5 as by bolts extending through suitable lateral ears on the two members 5 and 16.
To obtain a high velocity of the cooling water with a minimum volume of water and maximum cooling surface to thereby increase heat transfer, there is provided a spiral passage 1'? around the condenser pipe 4. The formation of this passage is such that it may be easily removed with the condenser pipe and be readily cleaned. Specifically this water passage is formed by heat transfer means in the form of a relatively thin sheet metal spiral flange or fin, having co-axial openings in the successive convolutions thereof. The fins or spiral member may be forced upon 'pipe 4 so as to have sufficient intimate contact therewith to effect good heat transfer between the joined elements, this'forced fit being of sufficient tightness to hold the fins and condenser pipe in a substantially fixed position with respect to each other, or if desired the fins may be welded at various points or dipped into a galvanizing bath. It will be noted that the fins 18 are preferably spaced from each of the heads 5 and 8 so as to form an inlet chamber 19 and outlet chamber 20, although the fins 18 are shown as preferably slightly overlapping the inlet and outlet openings 2 and 3. However, it will be4 noted that in any event even though the fins 18 were adjacent the heads 5 and 8 or were spaced therefrom to be entirely clear ofthe inlet out- `let, the water will iiow through inlet 2 and be given a spiral motion around the condenser tube as it ows through the successive convolutions of the condenser spiral passage 1'?. If desired the inlet 1'7A may be disposed more tangentially to pipe 1 so Vas to impart an initial whirling movement to thewater, although for the greatest simplicity of construction the inlet is disposed with its axis intersecting the axis of the tube. The same relations apply tov'theoutlet 3- except that if it is placed in a tangential point,
it would be on the opposite side to that of the inlet 2.
From the foregoing disclosure it is seen that I have provided an extremely simple arrangement of parts which not only are comparatively inexpensive but which are adapted to be easily secured together as by welding if such is desired and at the same time the arrangement is highly conducive to relative easy cleaning of the water passages. The device also has a high degree of compactness when it is considered that for a length of approximately 4 ft. and an outside diameter of 4 inches this would compare with prior multiple tube condensers for the same capacity which would be 41/2 ft. long and have a 10 in. diameter, the contrast being further seen by reason of my device having only one 11/2 in. diameter condenser tube as compared with eight 2 in. water tubes in the prior device just mentioned. This compactness and simplicity are brought about by my improved method of operation wherein the water is circulated at a high velocity and the gaseous ammonia enters the inlet 14 with a high velocity.
It will be noted that the spiral iin or flange 18 provides ample cooling surface for the condenser tube and yet its large amount of surface may be readily cleaned, even though the cooling surface is of a tortuous or normally inaccessible character, this being in distinction to those prior condensers where a large number of water tubes are employed in order to obtain sufficient simplicity for cleaning combined with a large amount of cooling surface.
While only one specific embodiment of the invention and the method of operating the same have been illustrated, it will of course be apparent to those skilled in the art 'that other modications and changes may be made without departing from the spirit as set forth in the appended claims.
A refrigerant condenser comprising an outer casing and an inner condenser tube spaced therefrom to provide a water passage, a spiral ange construction carried by said tube and disposed within said space, means forming a water inlet and outlet whereby cooling water ows from the inlet to the outlet through said space in a spiral path, means for supporting said condenser tube by said outer casing whereby said tube and its spiral flange may be axially removed bodily from said outer casing'. a head having a flange engageable with the entire end of said outer casing to provide a closure therefor and having an axial' opening, one end of said condenser tube being supported in said opening, and another head having a removable flange for entirely engaging the other end of said outer casing and being provided with an axial opening in which the other end of Lsaid condenser tube is disposed, said latter head being adapted when its flange is removed to pass through said inner casing upon removal of said'condenser tube.
2. A refrigerant condenser comprising an outer pipe of'cylindrical cross-section, an inner condenser pipe also of cylindrical cross-section and spacedfrom the outer pipe to form a water passage therebetween, means providing a heat transfer surface on the exterior of said condenser pipe,
andmeans for removably securing said condenser to said outer pipe including closure heads at each end thereof, one of which has provision whereby it may be axially moved through said outer pipe upon removal of said condenser tube.
3. A refrigerant condenser comprising an cuter pipe of cylindrical cross-section, an inner condenser pipe also of cylindrical cross-section and spaced from the outer pipe to form a water passage therebetween, means providing a heat transfer surface on the exterior of said condenser pipe, means for removably securing said condenser tc said outer pipe including closure heads at each end thereof, one of which has provision whereby it may be axially moved through said outer pipe upon removal of said condenser tube, and an outiet valve connected to said latter head and adapted also tofbe passed through said outer pipe.
4. A refrigerant condenser comprising an outer casing, an inner pipe spaced therefrom to form a* Water passage, means for supporting the ends of said condenser pipe by the ends of said outer casing and a valve mechanism associated with one end of said condenser pipe, said condenser pipe, valve mechanism and a part of said supporting means being removable axially through said outer casing.
5. A refrigerant condenser comprising an outer pipe, an inner condenser pipe spaced from said outer pipe to form a water passage therebetween, radial fins on said condenser pipe and extending into said space, and means for removably securing said condenser pipe to said outer pipe including closure means at each end thereof, one of said closure means being adapted together with sad condenser pipe and its radial fins to be moved axially through said outer pipe.
CHARLES R. NEESON.
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|U.S. Classification||165/96, 165/76, 165/156, 165/DIG.126|
|Cooperative Classification||F28B1/02, Y10S165/126|