US1736906A - Heat-exchange device - Google Patents

Heat-exchange device Download PDF

Info

Publication number
US1736906A
US1736906A US208445A US20844527A US1736906A US 1736906 A US1736906 A US 1736906A US 208445 A US208445 A US 208445A US 20844527 A US20844527 A US 20844527A US 1736906 A US1736906 A US 1736906A
Authority
US
United States
Prior art keywords
cup
members
tube
passage
heat exchange
Prior art date
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
US208445A
Inventor
Flintermann Gerhard
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.)
Individual
Original Assignee
Individual
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.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US208445A priority Critical patent/US1736906A/en
Application granted granted Critical
Publication of US1736906A publication Critical patent/US1736906A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F1/00Tubular elements; Assemblies of tubular elements
    • F28F1/10Tubular elements and assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses
    • F28F1/12Tubular elements and assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses the means being only outside the tubular element
    • F28F1/24Tubular elements and assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses the means being only outside the tubular element and extending transversely
    • F28F1/26Tubular elements and assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses the means being only outside the tubular element and extending transversely the means being integral with the element
    • F28F1/28Tubular elements and assemblies thereof with means for increasing heat-transfer area, e.g. with fins, with projections, with recesses the means being only outside the tubular element and extending transversely the means being integral with the element the element being built-up from finned sections

Definitions

  • This invention relates to heat exchange devices.
  • One object of the invention is to provide a heat exchange device, or element for use therein, in which the passages or conduits for the various fluids are formed in a novel manner such that the construction of the device is inexpensive and such that there is effected a good heat exchange'between the fluids flowing through and around the various passages or conduits.
  • Fig. 1 is a Vertical sectional view of a portion of a heat exchange device illustrating the manner in which the passages for the fluids are formed;
  • Fig. 2 is a vertical sectional view of a heat exchange device constructed as illustrated in Fig. 1, but with slight modifications;
  • Fig. 3 is a sectional view taken on the line 3-3 of Fig. 2;
  • Fig. 4. is a vertical sectional view of another type of heat exchange device constructed in accordance with the invention.
  • Fig. 5 is a more or less diagrammatic sectional view illustrating the application of the invention to a heat exchange device in which the inner tubes or conduits are of one piece instead of composite as it is in the other figures.
  • the device therein illustrated is made up of a plurality of thin sheet metal plates 1.
  • Each plate has a drawn or stamped cup-like projection 2 which is slightly tapered so that the cup-like portions may nest, or partly nest, without bringing the plates 1 into actual contact, but leaving them in spaced relation.
  • the bottom of each cup-like member 2 is perforated to provide a ring on tube contacting member 3 and a plu rality of openings 4 located between the ring 3 and the walls of the cup-like member (see also Fig. 3).
  • the provision of the openings 4 leave radially extending arms -5 which connect the ring 3 with the walls of the corresponding cup-like member.
  • the plate of the end cup-like member 2 may be omitted so that it may be fastened to a header or the like 6.
  • the end cup-like member 2 may have a flange 7, and a collar '8 serves to clamp a portion of the header between itself and the flange 7.
  • the rings members are slightly tapered so that they w1ll' nest, or partly nest, as shown in Fig. 1.
  • the end tubular section 9 may be of slightly diflerent form so as to extend to any compartment in communication with which it is desired to place the interior of the tube formed by the tube sections 99.
  • Each tubular section 9 has at least one transversely extending strip 10 which acts as a baflie to the flow of fluid through the tube sections.
  • the strips 10 of the different tube sections may be disposed in different directions as shown in Fig. 3 so as to more effectively baflle or stir up the stream of fluid passing through the tube sections.
  • This staggered arrangement of the strips 10 may be obtained simply by angularly displacing each tube section with respect to the preceding one, as it is positioned.
  • the openings 4 may be so formed in the various'cup-like members 2 that the radial arms 5 of one cup-like member will lie in a different direction from the arms of an adjacent cup-like-member 'so that the fluid flowing through the cup-like mein bers and around the inner tube will also be baflled or stirred up.
  • the arms 5 are not located symmetrically with respect to the longitudinal center line of the plates 1, all of the plate elements may be made alike and still a staggered relation of the arms 5 may be obtained by reversing the position of the alternate plates.
  • the baifle strips 10 and bafile arms 5 are of particular value when oil is the fluid medium, or one of them, because oil is very sluggish and the more it is stirred thebetter will be the heat exchange.
  • the walls of the cup-like members 2 form a continuous conduit and the openings 4 afford a passage for the flow of fluid through this conduit.
  • the tubular members 9 form an inner tube or conduit the passage within which is surrounded by the passa e through the cup-like members 2.
  • the plates 1, cup-like-members 2 and tubular sections 9 are all formed from relatively light sheet metal.
  • the nesting cup-like members 2 and nesting tubular sectlons 9 are forced together when they are assembled.
  • the joints between the parts will be sufficiently tight to prevent leakage, but if desired the entire device may be placed in a solder bath so that all the joints will be secured together.
  • the rings 3 may actually support the tube made up of the sections 9, but in any event they make contact with the tube sections, or the tube made up of these sections, and therefore, in conjunction with the radial arms 5 they serve as good heat conducting paths between the walls of the outer conduit formed the inner conduit formed by the tubular sections 9.
  • the fluid medium to be cooled may pass through the inner conduit formed by the tubular members 9 and one cooling medium, uch as water, or the like, may pass through the passage formed by the cup-like members 2 while a second cooling medium, such as air, might flow in contact with the plates 1.
  • a second cooling medium such as air
  • the invention illustrated in Fig. 1 has numerous applications. It may be used in any heat exchange device where it is desirable to have a central passage such as that formed by the tube sections 9, andan annular surrounding passage such as that formed by the cup-like members 2.
  • the plates-or fins 1 may be omitted from the cup-like mem-' bers 2, but in most instances the use of these will be desirable.
  • Fig. 2 shows the application of the invention to a heat exchange device such as a steam or hot water heater.
  • the device shown in this figure may have any number of conduits formed by the cup-like members 2 and any number of inner conduits formed by the tubular members 9.
  • Fig. 2 shows only two sets of conduits.
  • the inner passages formed'by the tubular members 9 are in communication with a header or compartment 11, and the corresponding ends of the passages through the cup-like members 2 are in communication with a header or compartment 12.
  • the compartments 11 and 12 have openings 13 and 14 one of which may be an inlet and the other an outlet.
  • the direction of the arrows in Fig. 2 indicates that the opening 13 is an inlet and the opening 14 is an outlet, but this arrangement may, of course, be reversed.
  • each passage through the tubular members 9 is in communication with the corresponding end of the passage through the cup-like members 2 as indicated by the arrows 15.
  • the upper end of each tier of cup-like members may be closed by a cap 16 and these caps may be provided with a connecting pipe 17 provided with an air" escape valve 18.
  • Caps 17 allow access to the header 11 and also permit insertion of the fastening sleeves 18
  • the heating medium may enter at 13 as indicated by the arrow and it hasa positive flow through the inner passage formed by the tubular sections 9, and reversely through the passage formed by the cup-like members 2 to the outlet 14.
  • the fins 1 radiate the heat to the surrounding air.
  • the device When the device is arranged in an upright position with the fin 1 horizontally disposed, air may be forced between them, but if the device is so arranged that the fins 1 are vertically disposed then the air or other medium passing by the fins or plates 1 may have a natural upward movement.
  • the purpose of the i inner and outer passages in Fig. 2, that is, the passages formed by the tubular sectlons 9 on the one hand, and the passages formed by the cup-like members 2 on the other hand, is mainly to effect a positive flow of the fluid through the device rather than for heat exchange purposes between the fluid in these two passages.
  • these passages may be so utilized that there is a ositive heat exchange between difierent'fluiss passin through the passages or between the same uid at diflerent temperatures.
  • the inner and outer passages may be -used as a combined steam and hot water heater by keepingthe inner and outer passages separate, and passing steam through the inner passages and water through the outer passages. This may be accomplished by constructing the upper portion'of the device in the manner shown in Fig. 1, in which event the steam could .be discharged through the tubular member 9' and the hot water through the header 6.
  • the rings 3 differ from those shown in Fig. 1 in that they are provided with bent over edge portions 3'. These bent over portions 3' form flanges extending in thddirection of the walls of the inner tube and provide a greater surface contact for the inner tube. The larger surface contact not only produces a better heat conducting path but when the parts are soldered together a better joint can be made at this place than when the edges are straight and unbent as in Fig. 1.
  • Figs. 4 and 5 illustrate other types of heat exchange devices and show further applications of the invention'
  • tubular members 9 are inverted and one of the end tubular members such as that shown at 9 has a closed bottom so that the tier of tubular members forms a receptacle for holding a fluid represented at 19.
  • the passage through the cup-like members 2 is in communication with a compartment 20 having aninlet 21.
  • Hot air or steam may be admitted through the inlet 21 and passes upwardly around the receptacle formed by the tube sections 9 and may be discharged at 22.
  • the fluid shown at 19 may be water which is heated by the medium flowing from inlet 21 to outlet 22 and furnishes the desired moisture to the air.
  • Ihe fins or plates 1 radiate the heat to the surrounding air and when the device is so arranged that these fins are in horizontal position it may be advisable to force the air between the fins.
  • the air When the device is arranged so that the fins are in vertical position, the air may rise naturally between the ins without being forced.
  • the water When the device is in this position the water may be poured into the receptacle formed by the tube sections 9 through a funnel 23 or the water may be allowed to drip slowly into this funnel so that the water is evaporated almost instantly.
  • the inner tubes 9, instead of being composite ones made up of tubular sections. are one-piece pipes or tubes.
  • the tubes 9 make contact with the bent over edges 3 of the tube rings or supports 3.
  • the tubes 9 may be actually supported by the rings 3 and bent over edges 3 and may be soldered to them, or the tubes may-be supported on headers 2 1 and 25 as shown at26. In any event it is desirable that the bent over edges 3 or rings 3 make actual contact with the tubes for heat conducting purposes. Fluid may pass from one header to the other through the passage formed by the cup shaped members 2 and a different fluid may pass through or fill the tubes 9.
  • the device shown in this figure may be useful as a c0ndenser in an ice machine and may be arranged so that air may pass between the fins 1, water may be held stationary in the tubes 9, or allowed to flow through them, and the refrigerant may pass through the passages around the tubes or this arrangement may be reversed.
  • the refrigerant is cooled by the outside medium passing between the fins 1 and also by the inside medium in the tubes 9
  • the cooling medium in the tubes 9 can be the same as the cooling medium passing between the fins 1.
  • the arms 5 and rings 3 conduct the heat from the medium flowing around the tubes 9*, both outwardly to the fins 1 and inwardly to the walls of the tubes 9*.
  • bent over edges 3 on the rings 3 are i of special value when continuous or one-piece tubes such as shown at 9, in Fig. 5 are used, but obviously they may be omitted in this type of device.
  • a heat exchange device a plurality of nesting sheet metal cup-like members, the bottom of each cup-like member being perforated to provide a tube contacting member and to provide openings between said tube contacting member and the walls of the cup-like member, and a tube in contact with said tube contacting members the openings in the bottoms of said cup-like members around said tube contacting members affording a continuous passage through the cuplike members and around the tube.
  • a heat exchange device a plurality of nesting sheet metal cup-like members, the bottom ofeach cup-like member being perforated to provide a ring and to provide openings between said ring and the walls of the cup-like member, and a tube extending through the rings of said cup-like members, the openings in the bottoms of said cup-like membersaround the rings affording a continuous passage through the cup-like members and around the tube.
  • each cup-like member being perforated to provide a tube contacting member supported from the walls of the cup like member by radially disposed arms, and a tube extending through and contacting with said tube contacting members.
  • a heat exchange device a pluralit of superposed spaced sheet metal plates; eac plate having at least one cup-like projection which is in nesting relation with the corresponding cup-like projection of the succeeding plate, the bottom of each cup-like member being perforated to provide a ring and to provide openings between said ring and the walls of said cup-like member, and a tube extending through the rings of said cup-like members.
  • a heat exchange device a plurality of superposed spaced plates each of which has at. least one cup-like projection which nests with the corresponding projection of the succeeding plate, the bottom of each cup-like member being perforated to provide a tube contacting member and to provide openin between said member and the Walls of the cup-like member, and a tube contacting with said tube contacting members.
  • a heat exchange device comprising a plurality of nesting sheet metal cup-like members, the bottom of each cup-like member being perforated to provide a tube contacting member and to provide openings between said member and the walls ofthe cuplike member, said openings in the bottoms of the cup like members affording a passage through the cup-like members, and a tube contacting with said tube contacting members affording a passage which issurrounded by said first named passage, said heat exchanging device having a compartment in communication with one end of said tube passage and, a separate compartment in communication with the-corresponding end of the passage through said cup-like members, the other end of the tube passage bein in opemcommunication with the corresponding end of said passage through the cup-like members whereby there may be a positive flow of fluid through one of said-passages and reversely through the other, one of said com-

Landscapes

  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Geometry (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)

Description

Nov. 26, 1929.
G. FLINTERMANN HEAT EXCHANGE DEVICE Filed July 26, 1927 @372 ATTORNEY5.
INVENTOR Patented Nov. 26, 1929 UNITED STATES PATENT OFFICE HEAT-EXCHAN GE DEVICE Application filed July 26, 1927. Serial No. 208,445.
This invention relates to heat exchange devices.
One object of the invention is to provide a heat exchange device, or element for use therein, in which the passages or conduits for the various fluids are formed in a novel manner such that the construction of the device is inexpensive and such that there is effected a good heat exchange'between the fluids flowing through and around the various passages or conduits.
The invention is illustrated in the accompanying drawings in which:
Fig. 1 is a Vertical sectional view of a portion of a heat exchange device illustrating the manner in which the passages for the fluids are formed; i
Fig. 2 is a vertical sectional view of a heat exchange device constructed as illustrated in Fig. 1, but with slight modifications;
Fig. 3 is a sectional view taken on the line 3-3 of Fig. 2;
Fig. 4. is a vertical sectional view of another type of heat exchange device constructed in accordance with the invention; and
, Fig. 5 is a more or less diagrammatic sectional view illustrating the application of the invention to a heat exchange device in which the inner tubes or conduits are of one piece instead of composite as it is in the other figures.
Referring first to Fig. 1, the device therein illustrated is made up of a plurality of thin sheet metal plates 1. Each plate has a drawn or stamped cup-like projection 2 which is slightly tapered so that the cup-like portions may nest, or partly nest, without bringing the plates 1 into actual contact, but leaving them in spaced relation. The bottom of each cup-like member 2 is perforated to provide a ring on tube contacting member 3 and a plu rality of openings 4 located between the ring 3 and the walls of the cup-like member (see also Fig. 3). The provision of the openings 4 leave radially extending arms -5 which connect the ring 3 with the walls of the corresponding cup-like member. -The plate of the end cup-like member 2 may be omitted so that it may be fastened to a header or the like 6.- For this purpose the end cup-like member 2 may have a flange 7, and a collar '8 serves to clamp a portion of the header between itself and the flange 7. The rings members are slightly tapered so that they w1ll' nest, or partly nest, as shown in Fig. 1. The end tubular section 9 may be of slightly diflerent form so as to extend to any compartment in communication with which it is desired to place the interior of the tube formed by the tube sections 99. Each tubular section 9 has at least one transversely extending strip 10 which acts as a baflie to the flow of fluid through the tube sections. The strips 10 of the different tube sections may be disposed in different directions as shown in Fig. 3 so as to more effectively baflle or stir up the stream of fluid passing through the tube sections. This staggered arrangement of the strips 10 may be obtained simply by angularly displacing each tube section with respect to the preceding one, as it is positioned. Likewise, the openings 4 may be so formed in the various'cup-like members 2 that the radial arms 5 of one cup-like member will lie in a different direction from the arms of an adjacent cup-like-member 'so that the fluid flowing through the cup-like mein bers and around the inner tube will also be baflled or stirred up. WVhen the arms 5 are not located symmetrically with respect to the longitudinal center line of the plates 1, all of the plate elements may be made alike and still a staggered relation of the arms 5 may be obtained by reversing the position of the alternate plates. The baifle strips 10 and bafile arms 5 are of particular value when oil is the fluid medium, or one of them, because oil is very sluggish and the more it is stirred thebetter will be the heat exchange.
It will now be noted that the walls of the cup-like members 2 form a continuous conduit and the openings 4 afford a passage for the flow of fluid through this conduit. The
plates or fins 1 provide radiating or conducting fins to afford a better heat exchange between the medium contacting with these fins and the medium flowing through the passage formed by the cup-like members. The tubular members 9 form an inner tube or conduit the passage within which is surrounded by the passa e through the cup-like members 2.
Prefera ly the plates 1, cup-like-members 2 and tubular sections 9 are all formed from relatively light sheet metal. The nesting cup-like members 2 and nesting tubular sectlons 9 are forced together when they are assembled.
For some purposes the joints between the parts will be sufficiently tight to prevent leakage, but if desired the entire device may be placed in a solder bath so that all the joints will be secured together. In some cases the rings 3 may actually support the tube made up of the sections 9, but in any event they make contact with the tube sections, or the tube made up of these sections, and therefore, in conjunction with the radial arms 5 they serve as good heat conducting paths between the walls of the outer conduit formed the inner conduit formed by the tubular sections 9. For instance if a medium to be cooled is flowing in the passage through the cup-like members 2, and a cooling medium is flowing through the inner conduit formed by the tubular members 9 and also in contact with the outer walls of the cup members 2, the arms 5 and rings3 will serve to conduct the heat both outwardly to the Walls of cup members 2 and inwardly to the walls of tubular members 9.
The exact manner in which the heat is conducted by the arms 5 and rings 3 and by the other metallic parts of the device will depend, of course, upon the relation between the various fluid mediums. For instance, the fluid medium to be cooled may pass through the inner conduit formed by the tubular members 9 and one cooling medium, uch as water, or the like, may pass through the passage formed by the cup-like members 2 while a second cooling medium, such as air, might flow in contact with the plates 1. In this case the rings 3 and arms 5 would conduct the heat outwardly first to the medium flowing around the inner tube and if it is not all absorbed by that medium the remainder would be passed on to the walls of the cuplike members 2 and to the fins. 1.
The invention illustrated in Fig. 1 has numerous applications. It may be used in any heat exchange device where it is desirable to have a central passage such as that formed by the tube sections 9, andan annular surrounding passage such as that formed by the cup-like members 2. The plates-or fins 1 may be omitted from the cup-like mem-' bers 2, but in most instances the use of these will be desirable.
Fig. 2 shows the application of the invention to a heat exchange device such as a steam or hot water heater. The device shown in this figure may have any number of conduits formed by the cup-like members 2 and any number of inner conduits formed by the tubular members 9. Fig. 2, however, shows only two sets of conduits. The inner passages formed'by the tubular members 9 are in communication with a header or compartment 11, and the corresponding ends of the passages through the cup-like members 2 are in communication with a header or compartment 12. The compartments 11 and 12 have openings 13 and 14 one of which may be an inlet and the other an outlet. The direction of the arrows in Fig. 2 indicates that the opening 13 is an inlet and the opening 14 is an outlet, but this arrangement may, of course, be reversed. The other end of each passage through the tubular members 9 is in communication with the corresponding end of the passage through the cup-like members 2 as indicated by the arrows 15. The upper end of each tier of cup-like members may be closed by a cap 16 and these caps may be provided with a connecting pipe 17 provided with an air" escape valve 18. Caps 17 allow access to the header 11 and also permit insertion of the fastening sleeves 18 When used as a steam or hot water radiator the device shown in Fig. 2 operates as follows. The heating medium may enter at 13 as indicated by the arrow and it hasa positive flow through the inner passage formed by the tubular sections 9, and reversely through the passage formed by the cup-like members 2 to the outlet 14. The fins 1 radiate the heat to the surrounding air. When the device is arranged in an upright position with the fin 1 horizontally disposed, air may be forced between them, but if the device is so arranged that the fins 1 are vertically disposed then the air or other medium passing by the fins or plates 1 may have a natural upward movement.
It will be noted that the purpose of the i inner and outer passages in Fig. 2, that is, the passages formed by the tubular sectlons 9 on the one hand, and the passages formed by the cup-like members 2 on the other hand, is mainly to effect a positive flow of the fluid through the device rather than for heat exchange purposes between the fluid in these two passages. However, there are many instances where these passages may be so utilized that there is a ositive heat exchange between difierent'fluiss passin through the passages or between the same uid at diflerent temperatures. For instance, the device shown in Fig. 2 may be -used as a combined steam and hot water heater by keepingthe inner and outer passages separate, and passing steam through the inner passages and water through the outer passages. This may be accomplished by constructing the upper portion'of the device in the manner shown in Fig. 1, in which event the steam could .be discharged through the tubular member 9' and the hot water through the header 6.
In Fig. 2 the rings 3 differ from those shown in Fig. 1 in that they are provided with bent over edge portions 3'. These bent over portions 3' form flanges extending in thddirection of the walls of the inner tube and provide a greater surface contact for the inner tube. The larger surface contact not only produces a better heat conducting path but when the parts are soldered together a better joint can be made at this place than when the edges are straight and unbent as in Fig. 1.
It will also be noted with respect to Fig. 2 that the expansion and contraction of the parts are automatically taken care of as the fastening means may be at one end and no tie rods are employed.
Figs. 4 and 5 illustrate other types of heat exchange devices and show further applications of the invention' In Fig. ithe tubular members 9 are inverted and one of the end tubular members such as that shown at 9 has a closed bottom so that the tier of tubular members forms a receptacle for holding a fluid represented at 19. The passage through the cup-like members 2 is in communication with a compartment 20 having aninlet 21. Hot air or steam may be admitted through the inlet 21 and passes upwardly around the receptacle formed by the tube sections 9 and may be discharged at 22. The fluid shown at 19 may be water which is heated by the medium flowing from inlet 21 to outlet 22 and furnishes the desired moisture to the air. Ihe fins or plates 1 radiate the heat to the surrounding air and when the device is so arranged that these fins are in horizontal position it may be advisable to force the air between the fins. When the device is arranged so that the fins are in vertical position, the air may rise naturally between the ins without being forced. When the device is in this position the water may be poured into the receptacle formed by the tube sections 9 through a funnel 23 or the water may be allowed to drip slowly into this funnel so that the water is evaporated almost instantly.
In Fig. 5 the inner tubes 9, instead of being composite ones made up of tubular sections. are one-piece pipes or tubes. The tubes 9 make contact with the bent over edges 3 of the tube rings or supports 3. The tubes 9 may be actually supported by the rings 3 and bent over edges 3 and may be soldered to them, or the tubes may-be supported on headers 2 1 and 25 as shown at26. In any event it is desirable that the bent over edges 3 or rings 3 make actual contact with the tubes for heat conducting purposes. Fluid may pass from one header to the other through the passage formed by the cup shaped members 2 and a different fluid may pass through or fill the tubes 9. The device shown in this figure may be useful as a c0ndenser in an ice machine and may be arranged so that air may pass between the fins 1, water may be held stationary in the tubes 9, or allowed to flow through them, and the refrigerant may pass through the passages around the tubes or this arrangement may be reversed. In this way the refrigerant is cooled by the outside medium passing between the fins 1 and also by the inside medium in the tubes 9 Obviously the cooling medium in the tubes 9 can be the same as the cooling medium passing between the fins 1. The arms 5 and rings 3 conduct the heat from the medium flowing around the tubes 9*, both outwardly to the fins 1 and inwardly to the walls of the tubes 9*.
The bent over edges 3 on the rings 3 are i of special value when continuous or one-piece tubes such as shown at 9, in Fig. 5 are used, but obviously they may be omitted in this type of device.
I claim:
- 1. In a heat exchange device a plurality of nesting sheet metal cup-like members, the bottom of each cup-like member being perforated to provide a tube contacting member and to provide openings between said tube contacting member and the walls of the cup-like member, and a tube in contact with said tube contacting members the openings in the bottoms of said cup-like members around said tube contacting members affording a continuous passage through the cuplike members and around the tube.
2. In a heat exchange device a plurality of nesting sheet metal cup-like members, the bottom ofeach cup-like member being perforated to provide a ring and to provide openings between said ring and the walls of the cup-like member, and a tube extending through the rings of said cup-like members, the openings in the bottoms of said cup-like membersaround the rings affording a continuous passage through the cup-like members and around the tube.
3. A device in accordance with claim' 1 Y tube.
6. In a heat exchange device a lurality of nesting sheet metal cup-l-ikemem ers, the bottom of each cup-like member being perforated to provide a tube contacting member supported from the walls of the cup like member by radially disposed arms, and a tube extending through and contacting with said tube contacting members.
7. A device in accordance with claim 6 in which the radially disposed arms of one cuplike member are disposed in a different direction from those of the succeeding cup-like member for the purpose described.
8. In a heat exchange device a pluralit of superposed spaced sheet metal plates; eac plate having at least one cup-like projection which is in nesting relation with the corresponding cup-like projection of the succeeding plate, the bottom of each cup-like member being perforated to provide a ring and to provide openings between said ring and the walls of said cup-like member, and a tube extending through the rings of said cup-like members.
9. In a heat exchange device a plurality of superposed spaced plates each of which has at. least one cup-like projection which nests with the corresponding projection of the succeeding plate, the bottom of each cup-like member being perforated to provide a tube contacting member and to provide openin between said member and the Walls of the cup-like member, and a tube contacting with said tube contacting members.
10. A heat exchange device comprising a plurality of nesting sheet metal cup-like members, the bottom of each cup-like member being perforated to provide a tube contacting member and to provide openings between said member and the walls ofthe cuplike member, said openings in the bottoms of the cup like members affording a passage through the cup-like members, and a tube contacting with said tube contacting members affording a passage which issurrounded by said first named passage, said heat exchanging device having a compartment in communication with one end of said tube passage and, a separate compartment in communication with the-corresponding end of the passage through said cup-like members, the other end of the tube passage bein in opemcommunication with the corresponding end of said passage through the cup-like members whereby there may be a positive flow of fluid through one of said-passages and reversely through the other, one of said com-
US208445A 1927-07-26 1927-07-26 Heat-exchange device Expired - Lifetime US1736906A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US208445A US1736906A (en) 1927-07-26 1927-07-26 Heat-exchange device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US208445A US1736906A (en) 1927-07-26 1927-07-26 Heat-exchange device

Publications (1)

Publication Number Publication Date
US1736906A true US1736906A (en) 1929-11-26

Family

ID=22774637

Family Applications (1)

Application Number Title Priority Date Filing Date
US208445A Expired - Lifetime US1736906A (en) 1927-07-26 1927-07-26 Heat-exchange device

Country Status (1)

Country Link
US (1) US1736906A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2537797A (en) * 1946-08-08 1951-01-09 Modine Mfg Co Finned tube
US2703701A (en) * 1946-05-20 1955-03-08 Modine Mfg Co Heat exchanger
US3407876A (en) * 1966-10-17 1968-10-29 Westinghouse Electric Corp Heat exchangers having plate-type fins
DE1501657B1 (en) * 1965-03-29 1970-07-23 Thermo Electron Eng Corp Fuel-heated thermionic converter
FR2355265A2 (en) * 1976-06-14 1978-01-13 Chaffoteaux Et Maury Leakproof heat exchanger system - using two elastic rings to ensure that any leaks do not mix inside
US4561494A (en) * 1983-04-29 1985-12-31 Modine Manufacturing Company Heat exchanger with back to back turbulators and flow directing embossments
US5078209A (en) * 1991-02-06 1992-01-07 Modine Manufacturing Co. Heat exchanger assembly
US5634519A (en) * 1994-06-08 1997-06-03 Valeo Thermique Moteur Heat exchanger, especially for cooling a high temperature air stream

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2703701A (en) * 1946-05-20 1955-03-08 Modine Mfg Co Heat exchanger
US2537797A (en) * 1946-08-08 1951-01-09 Modine Mfg Co Finned tube
DE1501657B1 (en) * 1965-03-29 1970-07-23 Thermo Electron Eng Corp Fuel-heated thermionic converter
US3407876A (en) * 1966-10-17 1968-10-29 Westinghouse Electric Corp Heat exchangers having plate-type fins
FR2355265A2 (en) * 1976-06-14 1978-01-13 Chaffoteaux Et Maury Leakproof heat exchanger system - using two elastic rings to ensure that any leaks do not mix inside
US4561494A (en) * 1983-04-29 1985-12-31 Modine Manufacturing Company Heat exchanger with back to back turbulators and flow directing embossments
US5078209A (en) * 1991-02-06 1992-01-07 Modine Manufacturing Co. Heat exchanger assembly
US5634519A (en) * 1994-06-08 1997-06-03 Valeo Thermique Moteur Heat exchanger, especially for cooling a high temperature air stream

Similar Documents

Publication Publication Date Title
US2677531A (en) Built-up, plate type heat exchanger having spiral flow
US4049048A (en) Finned tube bundle heat exchanger
US3335790A (en) Heat exchanger with crossing helicoidal tubes
US1880533A (en) Heat exchanger
US2870997A (en) Heat exchanger
US2612350A (en) Expansion compensated countercurrent heat exchanger
US1736906A (en) Heat-exchange device
US3963071A (en) Chell-and-tube heat exchanger for heating viscous fluids
US2729433A (en) Heat exchanger with removable tube banks
US2188975A (en) Multiple heat exchange unit
US3942588A (en) Cooling tower
US3074480A (en) Heat exchanger
US4121656A (en) Header
US1948550A (en) Oil heater
US1833876A (en) Pipe coil heat exchange equipment
US2946570A (en) Vertical feedwater heater
CS208124B2 (en) Pipe heat exchanger
US1962362A (en) Two pass heat exchanger
US20100132403A1 (en) Drainpipe heat exchanger with heat storage
US1683236A (en) Heat-exchanging apparatus
US2452391A (en) Heat exchanger
US1578830A (en) Heat exchanger
US2988335A (en) Heat exchangers
US2022173A (en) Heat transfer apparatus
US3507324A (en) Heat exchanger conduit