US2822151A - Connection for plate heat exchanger - Google Patents

Description

' Feb. 4, 1958 HEUER L 2,822,151

CONNECTIQN FOR PLATE HEAT EXCHANGER Filed Oct. 22, 1954 2 Sheets-Sheet 1 V NTO 5 CHARL EHEJIE'R RICHARD H ADAMS A TTORNEY United S tates Patent 0 CONNECTION FOR PLATE HEAT EXCHANGER Charles A. Heuer and Richard F. Adams, Alton 111., as-

signors to Olin Mathieson Chemical Qorporntton, East Alton, 111., a corporation of Virginia Application October 22, 1954, Serial No. 463,988

4 Claims. (Cl. 257-256) This invention relates to a sheet material tube structure and more-specifically to a tube connection for a sheet metal article having a series of conduit tubes included therein for conveying fluids through the article.

In the formation of hollow articles such as heat exchangers or the like it is advantageous in many instances to fabricate the article from a pair of sheet metal components joined together in face-to-face relationship except at spaced apart portions forming corrugations or bulges of a suitable configuration following a serpentine, grid, or looped path, for example, and various combinations thereof. The embossed sh et metal components may be stuck together by means of an interleaved solder- --'ing and brazing material as has been heretofore customary after the component sheets have been embossed with a desired tube corrugation. The hollow article may be also formed by a method such as that disclosed in U. 8. Patent No. 2,690,002 which results in a single flat sheet having potential passageways defined by a thin stratum of separation material embraced within the body of the single sheet and into which and along which fluid inflation pressure may be admitted thereby distending the sheet to form the passageways of a hollow article. in order that the article may be put to use and otherwise subject to processing such as inflation or cleaning of the interior, it stands to reason that such sheet material articles must be provided with some form of inlet and outlet to enable flow of the fluid medium through the passageways. This often necessitates the provision of two or more extensions of the passageways to the periphery of the sheet in order that circulatory communication may be had with the interior of the hollow article. A multiplicity of such connections is disadvantageous because it requires a separate assembly operation for each, a complex and more expensive tube forming and connecting die, or necessitates the extra operation of plugging up certain of the connections during certain phases of fabrication and opening of the connections after the conclusion of these operations. On the other hand when only one connection is provided as is often the case in the inflation method of forming of hollow articles, there is the disadvantage of the necessity of making a second connection by some suitable additional operation such as perforating or the like.

Therefore, an object of this invention is to provide in a sheet-like hollow article a form of single connection passageway adapted for the making of both an inlet and an outlet for the circulatory fluid to be carried in the hollow article. Another object of this invention is to provide a hollow article of sheet material in which connection to the fluid medium circulatory system may be readily made at but one place. Another object is to provide a connection for a sheet metal article adapted to facilitate the circulation of a fluid therein as well as the formation of a fluid conduit therein by inflation. Another object is to provide a combined inlet and outlet connection in a hollow article wherein both the article and the connection are formed by a pressure welding or roll bonding process including interleaved weld preventing material. Other objects and advantages will be apparent from the following description of specific embodiments of the invention and the accompanying drawing of the same in which:

Figure 1 is a plan view of one embodiment of a sheet metal article in accordance with this invention;

Figure 2 is an elevational view of the edge of the embodiment of Figure 1;

Figure 3 is a fragmentary cross sectional enlarged view taken on line IlIIlI of Figure 1;

Figure 4 is a fragmentary cross sectional enlarged view taken on line IV-IV of Figure 1;

Figure 5 is a partial cross sectional enlarged view taken at the median plane of the sheet metal article of Figure 1 on line VV at the combination inlet-outlet portion thereof;

Figure 6 is a plan view of a second embodiment of this invention with a portion broken away in the sheet metal article to better illustrate the structure and showing various couplings obtainable by means of this invention; and

Figure 7 is a fragmentary side view partly in cross section showing a device suitable for forming the hollow articles illustrated in the foregoing figures by inflation.

In accordance with this invention there is provided a single combined inlet-outlet form of connection to the passageways of a fluid circuit. The connection is disposed between the conduit system of a hollow article and only one part of the periphery of the article adapting the hollow article to make communication with a fluid circuit exterior to it by means of an injection nozzle or a coaxial Spaced tubular construction, or the like. Accordingly a terminal portion of the passageway of the conduit system of a sheet-like hollow article is extended to a peripheral edge of the article in such a manner as to provide in seriatum adjacent passageway portions different in size and arranged so that the larger portion is disposed between the periphery and the lesser portion and includes a lateral junction such as a T or Y junction or the like with another portion of the passageways. The lesser portion relative to the larger forms the convergent part of the passageway and/or the extension thereof to the periphery while the larger portion relative to the convergent portion constitutes the extension which in a sense may be considered a divergent continuation of the passageway and/ or its convergent part to the peripi cry or edge of the article. According to one construction, one of the terminal portions of the fluid passageways of the conduit system of the hollow sheet metal article is provided with an enlarged extension to the periphery of the article while the other terminal portion of the passageways is caused to make a T-junction with the enlarged portion. This permits the insertion of a hollow needle or injection nozzle at the periphery of the article through and beyond the extension to extend into the unenlarged first terminal portion of the passageways in sealing relationship with one part of this terminal portion thereby forming one part of the connection such as the inlet and leaving a space about the body of the needle or nozzle. By connection is meant the means for making a fluid coupling both to and from the fluid circuit of the hollow article. At and through this space a second and coaxial part of the connection with the periphery of the article may be made to serve as an outlet for the circulatory fluid. The connection includes an arrangement of two tubes, one substantially coaxially within and spaced from the other. An alternate con struction is to provide a constriction adjacent the first terminal portion of the fluid passageways, from which constriction an unrestricted extension is made to the pc- 3 riphery of the sheet article and to provide a T-junction between the other terminal portion of the conduit system passageways at such extension at a point between the constriction and the periphery. It is preferred that in further accordance with this invention the inlet-outlet passageway construction including the extension and the T-junction with either the enlargement or the constriction be delineated in the single sheet articles, formed by roll pressure welding referred to hereinbefore, by the configuration of the thin stratum of separation material enveloped within the body of the single sheet of the article.

In articles formed by this method, the extension is a continuation of and defined by the separation or stopweld material which is sandwiched between the component sheets which go to make up the finished single sheet article, after the to-be-juxtaposed surfaces of these component sheets have been treated to substantially remove foreign material which interfere with weldability. The

divergency and adjacent constriction, which are characteristic features of this invention, whether or not there be an actual passageway enlargement at the extension to the edge, are provided in the pattern of separation material at the extension. Thereafter in accordance with the method of forming articles by fluid pressure inflation a fluid pressure inflation nozzle is inserted at the extension to develop the conduit passageways in the article and subsequent steps of manufacture such as cleaning and connection with other hollow units and a fluid pump or compressor are conducted as is herein described.

The inlet-outlet extension structure of this invention is advantageously formed in accordance with this invention by being preformed in the stratum of separation material which is enveloped within the sheet-like article. The article itself is formed in accordance with the method whereby a passageway pattern composed of the separation material is applied between the juxtaposed surfaces of component sheets at least two of which go to make up the article. The pattern is designed so as to include an extension of the separation material pattern preformed with a constriction or with an enlargement as herein described. Where the component sheets are metal and joined by rolling, the pattern of separation material is foreshortened suitably so that upon extension concomitant to the rolling process a passageway pattern, including the extension structure, results with predetermined configuration.

The invention can be more clearly understood from a description of the specific embodiments illustrated in the accompanying drawing.

In the one embodiment shown in Figures 1, 2, 3, 4 and 5, the hollow article is made-up of a single sheet 1 is formed from initially distinct component sheets by a pressure welding process characterized by the presence of an included pattern of separation material along which fluid inflation pressure has been released after welding so as to develop the conduit system passageways 2 extending from the surface of the sheet as shown in Figure 1 and Figure 2. To make such a sheet, the to-bejuxtaposed surfaces of component sheets are first treated so as to clean them for the purpose of removing foreign matter sufficiently to render the surfaces weldable, after which the component sheets are placed in superposition with a suitable pattern of separation material between the adjacent components and the assembly is subjected to a reduction to unify the components except in the areas occupied by the separation material. One terminal portion 3 of the passageways 2, which may be referred to as the inlet terminal portion, is provided with a constriction 6 from which inlet terminal portion 3 is continued in unrestricted condition to extend to one peripheral edge 12 of the sheet 1 thereby forming an extension 5. This terminal extension 5 forms a communicating passageway between conduit passageways 2 and the pe- 4 ripheral edge 12 of sheet 1. The other or outlet terminal portion 4 of the passageways 2 instead of being also extended to the periphery of sheet 1, is disposed to form a T-junction with the unrestricted extension 5. As indicated in detail in Figure 5, the extension 5, the constriction 6 and passageways 2 are delineated prior to infiation by the presence of a stratum of weld-preventing or separation material 11 which is a composition of a carbonaceous or graphitic nature remaining as a residue, unless cleaned out.

in order to erect the passageways and extension structure shown generally in Figures 1 and 2, including the constriction 6, and to clean out the interior of the passageways fluid under pressure is first admitted into the interior of the sheet 1 along the stratum of separation material 11 and thereafter a cleaning fluid by means of a nozzle suitable for the purpose and constructed as shown in Figure 7. This fluid injection nozzle consists of an end portion 23 of lesser diameter and an adjacent portion 24 of larger diameter. A fluid pressure admitting bore 30 extends through both portions 23 and 24 of the nozzle. Erection of the passageways to the conduit system is accomplished by driving end portion 23 of the nozzle into the edge of the uninflated sheet 1 at the extension 5 until the tip of end portion 23 which is of a size adapted to the purpose, has made substantial entry into and beyond the constriction part 6 of the weldpreventing material 11 at which position the larger portion 24 of the nozzle has entered into extension 5 of the material 11. With the sheet material at extension 5 held in adequate sealing relationship with the larger part 24 of the needle, fluid pressure is admitted through bore 30 along the rest of the separation material 11 thereby erecting passageway by inflation. Next, with the nozzle Withdrawn only sufiiciently to disengage the larger portion 24 from the extension 5 to make a discharge opening, cleaning fluid is admitted by way of bore 30 and forced to enter into the passageway at section 3, through passageways 2, and issue from the discharge opening.

Subsequently a drying gas or other suitable surface treating fluid may be admitted through bore 30.

Following inflation and internal cleaning of the sheet structure 1, the injection nozzle is withdrawn entirely and inlet-outlet connections are made as shown in Figures 1-5. An inlet tube 7 of minor exterior diameter.

suitable to the constriction 6 is inserted through the extension 5 into the constriction 6 where a seal is made with the end of inlet tube 7 as shown in Figures 3 and 5. An outlet tube 9 of major diameter is assembled coaxially about inlet tube 7 and is disposed so that the end of outlet tube 9 extends into extension 5 in sealing relationship. As shown in Figures 4 and 5 this leaves a coaxial space between the inside of outlet tube 9 and the exterior of inlet tube 7 thereby providing another connection 10 serving as an outlet. Thus the bore 8 of tube 7 provides an inlet connection to the first terminal portion 3 of the passageways 2 while coaxial space it} be tween tubes 7 and 9 provides the outlet connection from the other terminal 4 of the passageways via extension 5.

In the embodiment of Figure 6, a sheet metal structure 13 is provided with a zig-zag pattern of conduit passageways 14 having a first or inlet terminal portion 15 and a second or outlet terminal portion 16. The inlet-outlet construction of this embodiment consists of an enlarged extension 17 of the first terminal portion 15 and a return conduit 18 making T-junction with extension 17 and extending between the second terminal portion 16 and the enlarged extension 17. The enlarged extension structure 17 of this embodiment is an alternative construction to the constricted structure of the previous embodiment and is desirable where a greater capacity of flow without reduction is needed to the inlet-outlet connection.

In the embodiment of Figure 6 primary sheet structure 13 is provided with a second inlet-outlet connection in the form of an enlargement and extension 22 extending between outlet terminal 16 of passageways 14, and a peripheral portion of the sheet 13. At this second extension 22 a combined inlet-outlet connection is completed by the addition of an inner tube 24 and an outer tube 31 which constitutes a dual coupling between primary hollow sheet structure 13 and the secondary hollow sheet structure 25 which also embraces a series of passageways 26. In the secondary sheet 25 passageways 26 have an inlet terminal 27 and an outlet terminal 28 at which junction is made with the enlarged extension 29 the form of which is similar to the hereinbcfore described extensions 17 and 22. At extension 29 a combined inletoutlet connection is made by insertion of and joining with the spaced coaxial tubes 24 and 31.

Inflation of the sheet structures 13 and 25 having the connections of this embodiment may be accomplished With the aid of the inflation nozzle of Figure 7 as in the previous embodiment.

After inflation and removal of the inflation nozzle, an inlet tube 19 of minor diameter having an inlet passage 21 is disposed in and through the enlarged extension 17 until the end of inlet tube 19 is positioned in terminal portion of the passageways 14 where a suitable seal may be formed and an outlet tube is coaxially assembled about inlet tube 19 in spaced relationship therewith and extended to make a sealing connection with the outer end of the enlarged extension 17. This form of construction leaves a coaxial space 32 through which fluid issuing from terminal portion 28 through return 18, its T-junction and extension 17 may be ejected. In like manner inner tube 24 is coupled at one end at enlargement 22 to outlet terminal 16 of passageways 14 while the other end of tube 24 is coupled at enlargement 29 to inlet terminal 27 of passageways 26 of the secondary hollow sheet structure 25. The entire assembly of Figure 6 permits fluid such as a refrigerant to be admitted at inlet terminal 15 by way of tube 19, circulate through passageways 14 of sheet 13 to outlet terminal 16 from whence the fluid is transferred by way of tube 24 to the inlet terminal 27 of secondary sheet 25, to circulate from terminal 27 through passageways 26 to outlet terminal 28 from which the fluid leaves the secondary sheet by way of extension 29 and the outer coaxial tube 31 and reenters sheet 13 at 22, to be bypassed through the return or cross passageway 18 to extension 17 from which the fluid is discharged by way of the outer coaxial tube 20. It will be appreciated that by means of this structure only 3 connections with the use of conventional tubing are required instead of six.

It is obvious that by means of this invention there is provided a single connection at which both an inlet and an outlet is accomplished without the necessity of auxiliary parts such as perforated plugs or the use of special flanged tubing or the like. With the connection of this invention conventional tubing and coupling may be employed. Furthermore, while connection has been shown out for a single sheet and a two sheet arrangement it will be appreciated that three or more sheets may be advantageously coupled by means of the new and improved connection herein described. For instance it will be readily understood that where the conduit passageway 14 makes a bend adjacent the periphery, and particularly at the corners of the article, more than one secondary sheet may be connected directly to the primary sheet of Figure 6 and that tertiary sheets may be connected in series with the secondary sheets. It will also be appreciated that this invention has utility for variously formed hollow articles containing fluid passageways but especially with respect to sheet-like articles the conduit system of which is generable by means of fluid inflation.

Since many other embodiments of this invention may occur to those skilled in the art, it is to be understood the foregoing is intended by way of illustration of a preferred embodiment and not as a limitation of the scope of the present invention except as set forth in the appended claims.

What is claimed is:

1. In a sheet-like hollow article having passageways embraced within the confines of the body of the article, a combined inlet-outlet connection at an extension of said passageways to the periphery of said sheet wherein the connection is characterized by a divergent portion of said passageways directly joined in series with one end of said passageways and one end of said extension of which said divergent portion forms an initial part, said extension making a junction with the other end of said passageways whereby an inlet is provided at said extension by a tube inserted through said extension and divergent portion and into said first end of said passageways and whereby an outlet is provided by an outer tube spaced from said inner tube and inserted into said extension between the periphery of said sheet and the junction of said other end of the passageways with said extension.

2. A hollow sheet metal article having a plurality of internal passageways in which a passageway has a constriction and extends to the edge of the sheet and in which a lateral passageway joins said constricted passageway intermediate the constriction and the edge of said sheet, said constriction being adapted to fit about a tube extending into said constricted passageway and being of a cross section substantially that of the constriction but smaller than the cross section of said passageway.

3. A hollow metal article adapted for heat exchange fluid circulation and connection having a plurality of internal passageways in which a passageway extends to an edge of the article and has adjacent but spaced from said edge a variation in passageway cross section and in which a lateral passageway intersects and communicates with said first passageway along the portion intermediate said variation and said edge, said intermediate portion of said passageway being enlarged as compared to the portion of the passageway adjacent the other side of said variation, at which said passageway is adapted to fit in sealing relationship about a tube extending into said enlarged passageway and being of outer cross section substantially that of the passageway at the variation but smaller than the cross section of said passageway enlargement, which tube in turn is coupled adjacent said edge and outwardly from said passageway intersection to another tube coaxially arranged about said first tube in coaxially spaced relationship to form a clearance space in communication with said lateral passageway.

4. The article of claim 3 wherein the first passageway is constricted at the passageway variation and on both sides of the constriction is enlarged as compared to the constriction, and wherein the outer of said tubes is fitted in sealing relationship with the extension between the intersection of said passageways and the edge of the article.

References Cited in the file of this patent UNITED STATES PATENTS 1,143,302 Moser June 15, 1915 2,039,193 Hubbuch et al. May 5, 1936 2,088,391 Steinberg et al July 27, 1937 2,410,912 Wenk Nov. 12, 1946 2,662,273 Long Dec. 15, 1953 2,690,002 Grenell Sept. 28, 1954

Images