US2157127A - Evaporator - Google Patents

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US2157127A
US2157127A US510688A US51068831A US2157127A US 2157127 A US2157127 A US 2157127A US 510688 A US510688 A US 510688A US 51068831 A US51068831 A US 51068831A US 2157127 A US2157127 A US 2157127A
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evaporator
sheet metal
walls
refrigerant
portions
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US510688A
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Delos P Heath
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Frigidaire Corp
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Frigidaire Corp
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B39/00Evaporators; Condensers
    • F25B39/02Evaporators
    • F25B39/022Evaporators with plate-like or laminated elements
    • F25B39/024Evaporators with plate-like or laminated elements with elements constructed in the shape of a hollow panel

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  • My invention relates to improvements in evaporators for artificial refrigerating machinery, which usually employ a'copper tube coil in which to expand the refrigerant.
  • An object of this invention is to provide an evaporator of sheet material for an artificial refrigerating machine that may be produced at a low cost, in a compact form, and that may be operated efliciently to cool domestic or commerw cial refrigerators.
  • a further object is to provide a method of manufacturing an evaporator of sheet material by first indenting at least one of the sheets. then fixing together walls to form a chamber, and
  • Another object of importance is to provide a heat transferring compartment not touched by refrigerant but in contact with the expansion chamber containing the refrigerant.
  • FIG. 1 is a vertical side elevation in section of one type of the evaporator
  • Fig. 2 is a plan view 25 of Figure 1
  • Figure 3 is a perspective of evaporator shown in Figure 1 and here shown attached to a refrigerating machine
  • Figures' i, 5, 6 and '7 illustrate various designs of indentations for evaporators of this type
  • Figures 8, 9 and 10 show alternate positions of the evaporator illustrated in Figure 3
  • Figures 11, 12, 13 and 14 show various positions of an evaporator indented as shown in Figure .4, and bent so that the fines connecting the headers form U shaped passage ways
  • Fig. 15 is a vertical side elevation in section of one type of the evaporator
  • FIG. 2 is a plan view 25 of Figure 1
  • Figure 3 is a perspective of evaporator shown in Figure 1 and here shown attached to a refrigerating machine
  • Figures' i, 5, 6 and '7 illustrate various designs of indentations for evaporators of
  • the evaporator shown in Figuresl, 2, and 3 comprises either one or two sheets of metal, at least one of which has formed in a portion of its area indentations 4.
  • the two walls, I and 2 are fixed together at or near their peripheries and at certain other contiguous surfaces 3 by the welding process, the brazing process, or by other means so that the wall area subjected to pres- 50 sure, which is between adjacent wall joining means, may be sufliciently small to withstand the maximum pressure without the breaking of any of the joints between the walls so that the structure as a whole may provide a practical vessel or 55 chamber for confining fluids.
  • the flat assembly ofthe two integral sheet walls is then formed to the shape desired by pressing, rolling, or by other processes.
  • difficulty has been experienced because the m pressure of the press or roll, combined with the difference in stresses set up in the two sheets, act to flatten out the indentations.
  • the welded or brazed joints ⁇ and joints of other kinds are strained.
  • FIGS 1, 2 and 3 there is shown a sheet walled evaporator with horizontal inlet and outlet headers at the bottom and top, respectively. These headers are connected by a plurality of substantially vertical passage-ways 4.
  • the indented wall or walls may be arranged to aii'ord communicating passage-ways in a great variety of ways, and the bending of the flat assembled sheets may provide many different shapes of tanks, also these tanks may be placed in a number of positions and yet will serve as efiicient evaporators to convey heat to the expanding refrigerant within their walls.
  • Figure 4 shows the design employed in making the evaporator in Figure 1
  • the die might be arranged to provide serpentine passageways as shown in Figure 5, or, the Archimedes spiral, as shown in Figure 6, or the dimpled sheet as shown in Figure '7, or, any other indentation design.
  • any of the various in- 40 dented or corrugated evaporator structures disclosed may be formed in accordance with the showing in Figs. 15 and 16 and the description relative thereto.
  • the Figure 1 tank is formed to have the head- 5 ers 5 form U bends and maybe arranged in the positions shown in Figures 1, 8, 9 and 10. However, the tank formed from the die of Figure 4 may also be bent in such a way that the connecting passage-ways, 4, between the headersform U bends, as in Figures 11, 12, 13 and 14. These few examples of the practical evaporator forms that may take shape from the Wall assembly of Figure 4, and the various designs of indentations illustrated, indicate the advantages of this methd of manufacturing evaporators. Either or both the indented half cylindrical headers, I and 6 may be embossed in the inner sheet I, as shown in Figures 11, 13 and 14.
  • the sheet type of evaporator may be successfully utilized with either the dry" or the flooded system of refrigeration, and although a high pressure float valve 9 is shown in Figure 3, the evaporator may be efliciently operated with an expansion valve, or other type of refrigerant flow control.
  • the space 3 between the passage-ways 4 acts as a fin to absorb heat and conduct it to the refrigerant, but because of theintegralconstruction,this type of evaporator is superior to the usual finned tubular evaporator. Refrigerant boiling and oil return are improved by locating 5 at bottom. Also the device is much easier to defrost than tubular evaporators.
  • This sheet 1, Figure 1 picking up heat from the food chamber air, by convection, and from contacting trays, by conduction, rapidly transfers the heat by conduction to that portion of the walls I contacting the heat removing refrigerant.
  • a cold compartment 8 is thus formed contiguous to the refrigerant chamber of the evaporator, which, because of the additional heat absorbing surface it adds to the evaporator without the joints required for surfaces contacting refrigerant, may be said to provide higher suction pressures and therefore more eflicient operation at only a slight additional cost.
  • the compartment 8 is made of thin walls in rectangular shaped sleeve-like form.
  • the walls of this compartment may be a separate structure whose walls are of a material possessing a high rate of heat transmission and are arranged in close heat transferring contact with the walls of the refrigerant vessel.
  • This removable construction permitstthe use of the cold" box exterior of the refrigerator and also its temporary 'attachment to the refrigerant vessel for any desired cooling or freezing period. ,Also it permits a standardized refrigerant expansion vessel to be used with refrigerators of varying cubic content, as the auxiliary cooling surface attached to the refrigerant expansion chamber may be proportioned to give the increase of cooling surface required to maintain uniform box temperature conditions.
  • a sheet metal evaporator comprising, vertically disposed and co'ntiguously extending sheet metal portions, a header portion formed in at least one of said sheet metal portions, corrugations formed in at least one of said sheet metal portions communicating with said header portion, one of said sheet metal portions being secured to the other thereof along said corrugations and sealed at its peripheries to form a chamber therebetween for the expansion of refrigerant. and said sheet metal portions thus secured together being bent to provide two vertical side walls and the vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
  • a sheet metal evaporator comprising, vertically disposed and contiguously extending sheet metal portions, a part of one of said sheet metal portions being extended outwardly away from the other of said portions to form a chamber therebetween, one of said sheet metal portions being corrugated to formsubstantially parallel passageways communicating with said chamber, contiguous parts of said sheet metal portions adjacent said chamber and said passageways being secured together to form a closed refrigerant ex pansion unit, and said unit being bent to provide the vertical side walls and the vertical back wall of a sharp freezing compartment for receiving a I receptacle adapted to contain a substance to be congealed or frozen.
  • a sheet metal tically metal portions being corrugated to form a plurality of horizontally disposed substantially parallel passageways communicating with said chamber, contiguous parts of said sheet metal portions adjacent said chamber and said'passageways being secured together to form a closed refrigerant unit being bent to pro- 6.
  • a sheet metal evaporator comprising, ver-- tically disposed and contiguously extending sheet metal portions. 8.
  • one of said sheet metal portions being corrugated to form a vertically disposed header spaced from said chamher and a plurality of horizontally disposed substantially parallel passageways communicating with said header and said chamber, contiguous parts of said sheet metal portions adjacent said chamber, said header and said passageways being secured together to form a closed refrigerant expansion unit, and said unit being bent to provide the vertical side walls and the vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
  • two vertically disposed metallic shells having a header formed therebetween, one of said shells being corrugated with a plurality of substantially parallel passageways communicating with said header, said shells being welded together along lines defining said corrugations at contiguous portions extending parallel to said corrugations, and said shells being sealed together at or near their edges to form a refrigerant expansion chamber bent to provide the vertical side walls and the vertical back wall of a sharp freezing compartment.
  • a sheet metal evaporator comprising, vertically disposed and contiguously extending sheet metal portions, one of said sheet metal portions being corrugated to form a plurality of horizontally disposed substantially parallel headers, one of said sheet metal portions being corrugated to form a plurality of vertically disposed substantially parallel passageways communicating with said headers, contiguous parts of said sheet metal portions adjacent said headers and said passageways being secured together to form a closed re-' frigerant expansion unit, and said unit being bent to provide the verticalside walls and the vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
  • a sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing, circulation of air between the evaporator and walls of the chamber comprising, vertically disposed contiguously extending sheet inetal portions, said sheet metal portions having certain parts thereof spaced apart and certain other contiguous parts thereof secured together to form a refrigerant expansion passage or chamber therebetween, and said sheet metal portions thus secured together being bent to provide two substantially straight vertical side walls and a substantially straight vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
  • a sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing circulation of air between the evaporator and walls of the chamber comprising, vertically disposed contiguously extending sheet metal portions, said sheet metal portions having certain parts thereof spaced apart and certain other contiguous parts thereof secured together to form a refrigerant expansion passage or chamber therebetween, and said sheet metal portions thus secured together being bent to provide three substantially straight vertical walls of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
  • a sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing circulation of air between the evaporator and walls of the chamber comprising, contiguously extending sheet metal portions having certain parts thereof spaced apart and certain other contiguous parts thereof secured together to form a refrigerant expansion passage or chamber therebetween, and said sheet metal portions thus secured together being arranged to provide at least three substantially straight upright walls of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
  • a sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing circulation of air between the evaporator and walls of the chamber comprising, vertically disposed contiguously extending sheet metal portions, one of said sheet metal portions being corrugated and being secured to the other -sheet metal portion at its periphery and between the corrugations to form a plurality of refrigerant expansion passages between the sheet metal portions, and said sheet metal portions thus secured together being arranged to provide at least three upright walls of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
  • two substantially vertically disposed shells having a central header portion and spaced apart walls formed by a continuation of the material of said'header walls, one of said shells having a plurality of substantially vertical corrugations parallel with said header and a plurality of horizontally disposed passages connecting said vertical corrugations with said central header, and said shells being secured together at contiguous portions between said corrugations and sealed at their peripheries to form a chamber for the expansion of refrigerant.
  • An evaporator for a refrigerating system comprising, superimposed sheet metal portions forming a double walled structure, the sheet metal portions of the double walled structure having certain parts thereof secured together and certain other parts thereof spaced apart to provide a refrigerant passage or passages therebetween, said double walled structure being arranged to form three upright sides of a sharp freezing compartment, said refrigerant passage or passages extending over portions of all of said sides of said freezing compartment, and inlet and outlet means for conveying refrigerant to and for withdrawing refrigerant from said passage or passages.

Description

D P. HEATH EVAPORATOR May 9, 1939.
Filed Jan. 25, 1951 3 Sheets-Sheet 2 FIG 4- FIG. 6
May 9, 1939. D HEATH 2,157,127
EVAPORATOR 5 Sheets-Sheet 3 Filed Jan. 23, 1931 FIGJA- INVENTOR a /QM Patented May 9,1939
UNITED STATES 2,157,127 EVAPORATOR Delos P. Heath,
Detroit, Mich., assignor to Frigidaire Corporation, Dayton, Ohio, at corporation of Delaware Application January 23, 1931, Serial No. 510,688
14 Claims.
My invention relates to improvements in evaporators for artificial refrigerating machinery, which usually employ a'copper tube coil in which to expand the refrigerant.
An object of this invention is to provide an evaporator of sheet material for an artificial refrigerating machine that may be produced at a low cost, in a compact form, and that may be operated efliciently to cool domestic or commerw cial refrigerators.
A further object is to provide a method of manufacturing an evaporator of sheet material by first indenting at least one of the sheets. then fixing together walls to form a chamber, and
5 then forming the assembled wall structure to a desired shape.
Another object of importance is to provide a heat transferring compartment not touched by refrigerant but in contact with the expansion chamber containing the refrigerant.
I attain these objects by the-devices illustrated in the accompanying drawings, in which- Figure 1 is a vertical side elevation in section of one type of the evaporator; Fig. 2 is a plan view 25 of Figure 1; Figure 3 is a perspective of evaporator shown in Figure 1 and here shown attached to a refrigerating machine; Figures' i, 5, 6 and '7 illustrate various designs of indentations for evaporators of this type; Figures 8, 9 and 10 show alternate positions of the evaporator illustrated in Figure 3; Figures 11, 12, 13 and 14 show various positions of an evaporator indented as shown in Figure .4, and bent so that the fines connecting the headers form U shaped passage ways; Fig. 15
35 shows superimposed corrugated sheet metal portions secured together and adapted to be bent or formed to provide an evaporator; and Fig. 16
discloses an evaporator produced by bending or forming the structure shown in Fig. 15 along the dot-dash lines A-A and BB.
Similar numerals refer to similar parts.
The evaporator shown in Figuresl, 2, and 3 comprises either one or two sheets of metal, at least one of which has formed in a portion of its area indentations 4. The two walls, I and 2 are fixed together at or near their peripheries and at certain other contiguous surfaces 3 by the welding process, the brazing process, or by other means so that the wall area subjected to pres- 50 sure, which is between adjacent wall joining means, may be sufliciently small to withstand the maximum pressure without the breaking of any of the joints between the walls so that the structure as a whole may provide a practical vessel or 55 chamber for confining fluids. The joining of the contacting portions of the two walls by fusion is carried between the indentations 4 and close up to the headers 5 and 6 to provide this maximum strength. Communicating passageways 4, provided by the indentations, allow free 5 flow from an inlet 5 to an outlet 6 opening.
The flat assembly ofthe two integral sheet walls is then formed to the shape desired by pressing, rolling, or by other processes. When bends are so made, difficulty has been experienced because the m pressure of the press or roll, combined with the difference in stresses set up in the two sheets, act to flatten out the indentations. Also the welded or brazed joints \and joints of other kinds are strained. However, I have found that when the 15 dies or rolls are built to safeguard these conditions strong and eflicient evaporators may be manufactured by this method at a cost much less than that of the present type of copper tube evaporator.
In Figures 1, 2 and 3 there is shown a sheet walled evaporator with horizontal inlet and outlet headers at the bottom and top, respectively. These headers are connected by a plurality of substantially vertical passage-ways 4.
However, the indented wall or walls may be arranged to aii'ord communicating passage-ways in a great variety of ways, and the bending of the flat assembled sheets may provide many different shapes of tanks, also these tanks may be placed in a number of positions and yet will serve as efiicient evaporators to convey heat to the expanding refrigerant within their walls. For instance, while Figure 4 shows the design employed in making the evaporator in Figure 1, the die might be arranged to provide serpentine passageways as shown in Figure 5, or, the Archimedes spiral, as shown in Figure 6, or the dimpled sheet as shown in Figure '7, or, any other indentation design. Obviously any of the various in- 40 dented or corrugated evaporator structures disclosed may be formed in accordance with the showing in Figs. 15 and 16 and the description relative thereto.
The Figure 1 tank is formed to have the head- 5 ers 5 form U bends and maybe arranged in the positions shown in Figures 1, 8, 9 and 10. However, the tank formed from the die of Figure 4 may also be bent in such a way that the connecting passage-ways, 4, between the headersform U bends, as in Figures 11, 12, 13 and 14. These few examples of the practical evaporator forms that may take shape from the Wall assembly of Figure 4, and the various designs of indentations illustrated, indicate the advantages of this methd of manufacturing evaporators. Either or both the indented half cylindrical headers, I and 6 may be embossed in the inner sheet I, as shown in Figures 11, 13 and 14.
The sheet type of evaporator may be successfully utilized with either the dry" or the flooded system of refrigeration, and although a high pressure float valve 9 is shown in Figure 3, the evaporator may be efliciently operated with an expansion valve, or other type of refrigerant flow control.
The space 3 between the passage-ways 4 acts as a fin to absorb heat and conduct it to the refrigerant, but because of theintegralconstruction,this type of evaporator is superior to the usual finned tubular evaporator. Refrigerant boiling and oil return are improved by locating 5 at bottom. Also the device is much easier to defrost than tubular evaporators. To provide evaporators re quiring a minimum refrigerant content and a maximum heat absorbing surface, I have arranged the extension of at least one of the sheets beyond the refrigerant space. This sheet 1, Figure 1, picking up heat from the food chamber air, by convection, and from contacting trays, by conduction, rapidly transfers the heat by conduction to that portion of the walls I contacting the heat removing refrigerant. A cold compartment 8 is thus formed contiguous to the refrigerant chamber of the evaporator, which, because of the additional heat absorbing surface it adds to the evaporator without the joints required for surfaces contacting refrigerant, may be said to provide higher suction pressures and therefore more eflicient operation at only a slight additional cost. The compartment 8 is made of thin walls in rectangular shaped sleeve-like form. The walls of this compartment may be a separate structure whose walls are of a material possessing a high rate of heat transmission and are arranged in close heat transferring contact with the walls of the refrigerant vessel. This removable construction permitstthe use of the cold" box exterior of the refrigerator and also its temporary 'attachment to the refrigerant vessel for any desired cooling or freezing period. ,Also it permits a standardized refrigerant expansion vessel to be used with refrigerators of varying cubic content, as the auxiliary cooling surface attached to the refrigerant expansion chamber may be proportioned to give the increase of cooling surface required to maintain uniform box temperature conditions.
I am aware that prior to my invention evaporators have been made with sheet metal walls. I therefore do not claim such a combination broadly; but I claim:
1. The process of making an evaporator from two sheets of metal, which consists in first stamping the sheets of metal to form embossed portions at predetermined points in each sheet, an embossed portion in one sheet consisting of a substantially half-cylindrical depression adapted to cooperate with the other sheet to form a header portion, forming laterally, extending parallel embossed portions in one sheet, said embossed portions opening at one end into said header portion and terminating near the opposite edge of said sheet, superimposing said sheets so that the header portion and flat walls extending therefrom of the one sheet register with portions of the other of said sheets, welding the sheets together around the edges and between the embossed portions for structural strength, and then bending the sheets plurality of wells er portion and fiat walls extending therefrom of the one sheet register with portions of the other of said sheets, welding the sheets together around the edges and between the embossed portions for structural strength, and then bending the sheets thus secured together intermediate their ends on at least two or more lines to form a least three walls of a sharp freezing chamber.
3. A sheet metal evaporator comprising, vertically disposed and co'ntiguously extending sheet metal portions, a header portion formed in at least one of said sheet metal portions, corrugations formed in at least one of said sheet metal portions communicating with said header portion, one of said sheet metal portions being secured to the other thereof along said corrugations and sealed at its peripheries to form a chamber therebetween for the expansion of refrigerant. and said sheet metal portions thus secured together being bent to provide two vertical side walls and the vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
4. A sheet metal evaporator comprising, vertically disposed and contiguously extending sheet metal portions, a part of one of said sheet metal portions being extended outwardly away from the other of said portions to form a chamber therebetween, one of said sheet metal portions being corrugated to formsubstantially parallel passageways communicating with said chamber, contiguous parts of said sheet metal portions adjacent said chamber and said passageways being secured together to form a closed refrigerant ex pansion unit, and said unit being bent to provide the vertical side walls and the vertical back wall of a sharp freezing compartment for receiving a I receptacle adapted to contain a substance to be congealed or frozen.
5. A sheet metal tically metal portions being corrugated to form a plurality of horizontally disposed substantially parallel passageways communicating with said chamber, contiguous parts of said sheet metal portions adjacent said chamber and said'passageways being secured together to form a closed refrigerant unit being bent to pro- 6. A sheet metal evaporator comprising, ver-- tically disposed and contiguously extending sheet metal portions. 8. part of one of said sheet metal portions being extended outwardly away from the other of said portions to form a vertically disposed chamber therebetween, one of said sheet metal portions being corrugated to form a vertically disposed header spaced from said chamher and a plurality of horizontally disposed substantially parallel passageways communicating with said header and said chamber, contiguous parts of said sheet metal portions adjacent said chamber, said header and said passageways being secured together to form a closed refrigerant expansion unit, and said unit being bent to provide the vertical side walls and the vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
'1. In a sheet metal evaporator, two vertically disposed metallic shells having a header formed therebetween, one of said shells being corrugated with a plurality of substantially parallel passageways communicating with said header, said shells being welded together along lines defining said corrugations at contiguous portions extending parallel to said corrugations, and said shells being sealed together at or near their edges to form a refrigerant expansion chamber bent to provide the vertical side walls and the vertical back wall of a sharp freezing compartment.
8. A sheet metal evaporator comprising, vertically disposed and contiguously extending sheet metal portions, one of said sheet metal portions being corrugated to form a plurality of horizontally disposed substantially parallel headers, one of said sheet metal portions being corrugated to form a plurality of vertically disposed substantially parallel passageways communicating with said headers, contiguous parts of said sheet metal portions adjacent said headers and said passageways being secured together to form a closed re-' frigerant expansion unit, and said unit being bent to provide the verticalside walls and the vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
9. A sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing, circulation of air between the evaporator and walls of the chamber comprising, vertically disposed contiguously extending sheet inetal portions, said sheet metal portions having certain parts thereof spaced apart and certain other contiguous parts thereof secured together to form a refrigerant expansion passage or chamber therebetween, and said sheet metal portions thus secured together being bent to provide two substantially straight vertical side walls and a substantially straight vertical back wall of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
10. A sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing circulation of air between the evaporator and walls of the chamber comprising, vertically disposed contiguously extending sheet metal portions, said sheet metal portions having certain parts thereof spaced apart and certain other contiguous parts thereof secured together to form a refrigerant expansion passage or chamber therebetween, and said sheet metal portions thus secured together being bent to provide three substantially straight vertical walls of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
11. A sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing circulation of air between the evaporator and walls of the chamber comprising, contiguously extending sheet metal portions having certain parts thereof spaced apart and certain other contiguous parts thereof secured together to form a refrigerant expansion passage or chamber therebetween, and said sheet metal portions thus secured together being arranged to provide at least three substantially straight upright walls of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
12. A sheet metal evaporator adapted to be installed in a food storage chamber of a refrigerator cabinet in spaced relation to the walls thereof for cooling and causing circulation of air between the evaporator and walls of the chamber comprising, vertically disposed contiguously extending sheet metal portions, one of said sheet metal portions being corrugated and being secured to the other -sheet metal portion at its periphery and between the corrugations to form a plurality of refrigerant expansion passages between the sheet metal portions, and said sheet metal portions thus secured together being arranged to provide at least three upright walls of a sharp freezing compartment for receiving a receptacle adapted to contain a substance to be congealed or frozen.
13. In a sheet metal evaporator, two substantially vertically disposed shells having a central header portion and spaced apart walls formed by a continuation of the material of said'header walls, one of said shells having a plurality of substantially vertical corrugations parallel with said header and a plurality of horizontally disposed passages connecting said vertical corrugations with said central header, and said shells being secured together at contiguous portions between said corrugations and sealed at their peripheries to form a chamber for the expansion of refrigerant.
14. An evaporator for a refrigerating system comprising, superimposed sheet metal portions forming a double walled structure, the sheet metal portions of the double walled structure having certain parts thereof secured together and certain other parts thereof spaced apart to provide a refrigerant passage or passages therebetween, said double walled structure being arranged to form three upright sides of a sharp freezing compartment, said refrigerant passage or passages extending over portions of all of said sides of said freezing compartment, and inlet and outlet means for conveying refrigerant to and for withdrawing refrigerant from said passage or passages.
DELOS P. HEATH.
US510688A 1931-01-23 1931-01-23 Evaporator Expired - Lifetime US2157127A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2469828A (en) * 1946-06-15 1949-05-10 Houdaille Hershey Corp Evaporator unit
US2602305A (en) * 1949-01-26 1952-07-08 Houdaille Hershey Corp Refrigerator construction
US2740188A (en) * 1952-05-24 1956-04-03 Gen Motors Corp Method of making a heat exchanger element

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2469828A (en) * 1946-06-15 1949-05-10 Houdaille Hershey Corp Evaporator unit
US2602305A (en) * 1949-01-26 1952-07-08 Houdaille Hershey Corp Refrigerator construction
US2740188A (en) * 1952-05-24 1956-04-03 Gen Motors Corp Method of making a heat exchanger element

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