US1937811A - Heater - Google Patents

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US1937811A
US1937811A US585315A US58531532A US1937811A US 1937811 A US1937811 A US 1937811A US 585315 A US585315 A US 585315A US 58531532 A US58531532 A US 58531532A US 1937811 A US1937811 A US 1937811A
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wall
casing
secured
grille
insulator
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US585315A
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Lachlan W Child
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Air Way Electric Appliance Corp
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Air Way Electric Appliance Corp
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D1/00Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators
    • F28D1/02Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid
    • F28D1/0233Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with air flow channels
    • F28D1/024Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, in which the other heat-exchange medium is a large body of fluid, e.g. domestic or motor car radiators with heat-exchange conduits immersed in the body of fluid with air flow channels with an air driving element

Definitions

  • This invention relates to heaters of the type commonly known as a wall heater, and has as its object to provide a heater which may be readily installed, presents a neat appearance when installed, and is adapted to create a forced circulation of air, taking cold air into its lower region and discharging heated air in a horizontal direction at its top.
  • Another object of the invention is to provide a simple thougheifective arrangement for supporting a radiator in a heater casing in a position to transfer heat to a stream of air produced by a blower in the casing.
  • a further object is to provide for a wall heater a casing structure which will adapt itself to various type of floors, an adjustable lower or intake grille being provided which may be set so that its lower edge will contact the floor surface irrespective of the respective levels of the sup porting surface on which the base of the heater rests, and of said floor.
  • Fig. 1 is a front elevation of the heater, parts being broken away to better illustrate the construction.
  • Fig. 2 is a detail sectional view taken on the line 2-2 of Fig. 1.
  • Fig. 3 is a detail sectional view taken on line 33 of Fig. 1.
  • Fig. 4 is a view of the radiator bracket.
  • Fig. 5 is a vertical sectional view through the water trap.
  • Fig. 6 is a vertical sectional heater.
  • Fig. '7 is a similar view through a somewhat modified form of heater.
  • I provide a heater casing having a base comprising a bottom wall 10 and angle iron legs 11, a rear wall 12, end walls 13, and a top wall 14.
  • a pair of angle iron 'rails 16' and 1'7 are secured at their ends by means of screws to brackets 18 attached to the end walls 13. (See Fig. 3.)
  • brackets 18 attached to the end walls 13.
  • To the rear faces of the rails 16 and 1'7 is permanently secured an insulator wall 19, forming together with said rails 16 and 1'7, an integral insulator wall "unit.
  • the term insulator is used to denote the function of the wall in forming an insulating air space.
  • Radiator brackets 20 are secured between the insulator wall 19 and rear wall 12.
  • the brackets 20, insulator wall 19, and rear wall 12, form a conduit which provides a vertically extending air passageway 21, in which is located the steam radiator 22.
  • Nipples 23, threaded into the ends of the radiator 22, are extended through the brackets 20 and supported by means of U bolt hangers 24. Slots 25 in the brackets 20 allow vertical adjuste5 ment of the nipples.
  • valve 26 To one of the nipples 23 is secured a valve 26.
  • a steam pipe 2'7 leads to the valve 26 and extends downwardly through the bottom wall 10 in the end space between an end' wall of the casing and the radiator and blower units respectively.
  • a steam trap 28 is attached to the other nipple 23, extends downwardly, and is attached to an elbow 29 of a steam pipe 30.
  • Thenipples 23 support the weight of the radiator.
  • the insulator wall 19 and rear wall 12 hold the radiator in upright position, against tilting about the axis of the nipples 23.
  • shoulder plates 31 and 32 are secured to the horizontal flanges of the rails 16 and 1'7 respectively, and extend horizontally to the plane of the forward edges of the casing.
  • Clips 33 and 34 are secured to the inner sides of the end walls 13, near the lower and upper ends thereof, respectively.
  • the clip 33 is secured by means of a screw 35 extended through a vertical slot 36 in the clip and thence threaded into the end wall 13.
  • the slot 36 allows vertical adjustment of the clip.
  • a front panel 37 is, secured to the clips 34.
  • the front panel includes a grille 38 through which air is discharged from the heater.
  • the panel 3'7 rests against the edges of the plates 32 and 31, deriving support therefrom.
  • the lower portion of the panel 3'7 is lapped by a lower grille 39 which is carried by the clips 33, and which holds the lower portion of the panel 3'7 against outward buckling.
  • the ends of the panel 3'7 and grilles 38 and 39 project beyond the end walls 13 of the casing, thereby covering the edges of the building wall definingthe cavity in which the heater is received.
  • the upper region of the grille 38 extends upwardly beyond the upper wall 14, covering the lower edge of the building wall.
  • the cavity in the building wall is outlined ,by a frame 40 including a horizontal sill provided with a downwardly projecting shoulder 41,
  • the finish panel 42, of plastering or the like, may then be extended to the top wall 14 without the necessity of securing it to the heater casing.
  • the front panel 37 is attached after the casing has been installed in its cavity in the building wall, and overlaps the panel 42 to conceal the edges of the cavity. If it is desired to inspect or repair the interior parts of the heater, this panel may be removed by simply removing the screws 52 securing it to the clips 34.
  • the insulator wall unit 16, 17, 19, 31, 32 may thence be removed by removing the screws 15 by means of which the rails 16, 17, are attached to the brackets 18.
  • the panel 37 may be removed without entirely removing the grille 39, the latter being loosened just enough to allow the lower end of the panel 37 to be slid upwardly until it is, free.
  • the insulator wall unit may be removed through the opening thus provided.
  • the insulator wall 19 intercepts horizontal radiation from the radiator 22, keeps the panel 37 cool, and reflects back into the air stream flowing through the space 21, most of the heat it intercepts.
  • the grilles 38 and 39 are kept from overheating by the flow of air through them.
  • a baflle plate 53 is secured by means of an integral flange 44 to the plate 32 and extends upwardly in front of the radiator unit 22 to conccal the same from view through the grille 38, and to concentrate the air stream at the top of the casing so as to increase the horizontal velocity of the air delivered from the heater.
  • the blower unit including the blower 45 and motor 46, the blower taking in air at the points 47 (Fig. 1) and delivering it as indicated at 48 (Fig. 6).
  • the upper wall of the blower is positioned closely adjacent the shoulder plate 31, whereby its discharge is concentrated into the space 21.
  • the upper portion of the casing is shallower than in the other form, sufficient space for the blower being provided by extending the plate 31 beneath and beyond the panel 37, and building out the lower regions of the end walls 13.
  • the grille 39 includes a skirt 46 which covers the plate 31 and extended portions of the end walls 13, and presses the panel 37 into contact with the edge of the rail 16.
  • the panel 39 has an edge of sufficient thickness so that when the heater (either type) is installed on a floor wherein the base 11 rests on a subfioor member 47 and a layer of flooring 48 may be set down to laid up to the forward face of the base 11 as shown, the lower edge of the grille 39 may rest upon the flooring 48 and conceal its edge.
  • the grille When'used in connection with a mosaic or concrete floor 49 as shown in Fig. 6, the grille bring its lower edge flush with the lower edge of the base 11, as'sho'wn. To this end, the grille is slidable past the forward face of the base.
  • a casing including an upwardly projecting flange spaced rearwardly from the forward edge of its upper wall, adapted to contact a wall frame member projecting downwardly from the wall cavity which receives the heater, heat distributing means in the casing, and a grille detachably secured to the casing and projecting above said edge.
  • a heat transfer device of the type to be set into a wall a casing the front of which is open in its upper region, an upwardly projecting flange spaced rearwardly from the forward edge of its upper wall, adapted to contact a wall frame member extending downwardly from the wall cavity which receives the heater, heat exchange means in the casing, and a grille disposed over said opening and projecting above the casing top wall.
  • a heat transfer device of the type to be set into a wall a casing the front of which is open in its upper region, an upwardly projecting flange on the upper wall of the casing, spaced from the forward edge of said wall, and adapted to contact a wall frame member extending downwardly from the wall cavity in which the heater is received, heat exchange means in the casing, and a grille detachably secured to the casing, disposed over said opening, and projecting above the said upper wall to overlap the lower extremity of a wall finish panel.
  • a casing having an intake opening disposed in its lower forward region, and including a bottom wall, and a grille secured to the casing oversaid opening and vertically adjustable forwardly of the forward edge of said bottom wall the lower edge of said grille being adapted to contact the surface of a floor when said casing is resting on said supporting surface. irrespective of the relative levels of said floor surface and supporting surface.
  • a casing having an intake opening disposed in its lower forward region and including a base adapted to rest on a supporting 1 25 surface, and a vertically adjustable grille se-v cured to the casing over said opening, its lower extremity adapted to project over the forward face of said base, and its lower edge to contact the surface of a floor when said base is resting on a supporting surface, irrespective of the relative levels of said floor surface and supporting surface.
  • a casing including spaced upright wall members defining a passageway, a pair of brackets forming end walls for said passage, a pair of nipples extending through said brackets and supported thereby, and a steam radiator threaded onto said nipples at its respective ends, vertical support being provided for said radiator by said nipples, and the radiator substantially filling the space between said walls and heldthereby against tilting around the axis of said nipples.
  • an open front casing a member horizontally traversing said open front and substantially flush with the forward edges thereof, a front panel formed with an upper grille and a depending skirt portion resting against said member, and a lower grille secured to the casing, overlapping the lower portion of said skirt portion, and securing the same a shoulder plate secured to said insulator wall and extending horizontally to said forward edges, a front panel covering said forward edges and including an upper grille portion and a depending skirt portion in contact with the forward edge of said shoulder plate, and a lower grille secured to said casing, overlapping the lower portion of said skirt, and securing the same against outward movement.
  • an open frontcasing including a rear wall and end walls, an insulator wall secured therein, substantially parallel to the rear wall, and spaced both from the rear wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, a front panel removably secured to the casing, covering the edges thereof, and including an upper grille portion and 9. depending skirt portion in contact with the forward edge of the shoulder plate, and a lower grille secured to the casing, overlapping the lower portion of said skirt and securing the same against outward movement.
  • an open front casing including a rear wall and end walls, an insulator wall secured therein, substantially parallel to the rear wall, and spaced both from the rear ,wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, a heat exchanger in the-space between-the insulator wall and the rear wall, a blower in the space below said heat exchanger and below said shoulder plate, a front panel removably secured to the casing, covering the edges thereof, and including an upper grille portion and a depending skirt portion in contact with the forward edge of the shoulder plate, and a lower grille secured to the casing, overlapping the lower portion of said skirt and securing the same against outward movement.
  • an open front casing including a rear wall and end walls, an insulator I wall secured therein, substantially parallel to the rear wall, and spaced both from the rear wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, a front panel removably secured to the casing, and including an upper grille portion and a depending skirt portion in contact with the forward edge of the shoulder plate, and a lower grille secured to the casing, overlapping the lower portion of said skirt and securing the same against outward movement.
  • an open front casing including rear and end walls, an insulator wall removably secured to the end walls therein, substantially parallel to the rear wall -and spaced both from the rear wall and from the forward edges of the end walls, a front panel'removably secured to the casing in a position spaced from said insulator wall, a heat exchanger in the space between said insulator wall and the rear wall, and a blower in the space below said heat exchanger.
  • an open front casing including a rear wall and end walls, an insulator wall secured therein, substantially parallel to the rear wall, and spaced both from the rear wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, and a front panel removably'secured to the casing in contact with the forward edge of the shoulder plate.
  • an open front casing including rear and end walls, a pair of upright wall members spaced inwardly from and parallel to said end walls, an insulator wall removably supported in the casing, in close association with the forward extremities of said wall members, parallel to and spaced rearwardly from the forward edges of the casing end walls, a front panel removably secured over the open front of the casing and spaced from said insulator wall, a heat exchanger in the space between said insulator wall, said wall members, and the casing rear wall, and a blower in the space below the heat exchanger.
  • an open front vertical air conduit including spaced upright end wall, members and an insulator wall removably supported in close association with said upright wall members 'and forming therewith an upright air passage, a fluid circulating heat exchanger in' said passage, fluid transmitting members connected to said exchanger through said upright wall members, a front panel removably secured over the open front of the casing and spaced from said insulator wall, and a blower in the space below the heat exchanger.
  • an open front casing including spaced upright end wall members and an insulator wall removably; supported in close association with said upright wall members and forming therewith an upright air passage, a heat exchanger in said passage, supported upon said upright wall members, a front panel removably secured over the open front of the casing and spaced from said insulator wall, and a blower in the space below the heat exchanger.
  • an open front casing including rear and end walls, a pair of upright wall members spaced inwardly from and parallel to said 'end walls, an insulator wall extending between the forward extremities of said upright wall members, a front panel covering said open front and spaced from said insulator wall, a heatexchanger in the space between said upright wall members, carried by said upright wall members, and a blower in the space below said heat exchanger.
  • an open front casing including rear and end walls, a pair of upright wall members spaced inwardly from and parallel to said end walls, an insulator wall extending between the forward extremities of said upright wall members, a front panel covering said open front and spaced from said insulator wall, and a fluid circulating heat exchanger in the space between said upright wall members, fluid transmitting members connected to the heat exchanger through said upright wall members, and a blower in the space below said exchanger, positioned to discharge air into the passage formed bysaid upright wall members, the insulator wall, and the 'rear wall of the casing.
  • a circulating fluid radiator In a heat transfer device, a circulating fluid radiator, a pair of fluid transmitting nipples projecting from the respective ends thereof,

Description

Dec. 5, 1933.
L. W. CHILD HEATER I Filed Jan. 7. 1952 2 Sheets-Sheet 1 v w, n sss I L. W. CHILD HEATER Filed Jan 7. 1932 2 Sheets-Sheet 2 Q If f J0 Patented Dec. 5, 1933 UNITED, STATES HEATER.
Lachlan W. Child, Toledo, Ohio assignor to Air- Way Electric Appliance Corporation, Toledo,
Ohio, a corporation of Delaware Application January '7, 1932. Serial No. 585,315 20 Claims. (01. 257-137) This invention relates to heaters of the type commonly known as a wall heater, and has as its object to provide a heater which may be readily installed, presents a neat appearance when installed, and is adapted to create a forced circulation of air, taking cold air into its lower region and discharging heated air in a horizontal direction at its top.
Another object of the invention is to provide a simple thougheifective arrangement for supporting a radiator in a heater casing in a position to transfer heat to a stream of air produced by a blower in the casing.
A further object is to provide for a wall heater a casing structure which will adapt itself to various type of floors, an adjustable lower or intake grille being provided which may be set so that its lower edge will contact the floor surface irrespective of the respective levels of the sup porting surface on which the base of the heater rests, and of said floor.
With theseand other objects in view my invention consists in the combination and construction and arrangement of the various parts thereof, whereby the objects contemplated are attained, as more fully set forth in the accompanying specification, pointed out in my claims, and illustrated in the accompanying drawings, .in which:
Fig. 1 is a front elevation of the heater, parts being broken away to better illustrate the construction.
Fig. 2 is a detail sectional view taken on the line 2-2 of Fig. 1.
Fig. 3 is a detail sectional view taken on line 33 of Fig. 1.
Fig. 4 is a view of the radiator bracket.
Fig. 5 is a vertical sectional view through the water trap.
Fig. 6 is a vertical sectional heater.
Fig. '7 is a similar view through a somewhat modified form of heater.
I provide a heater casing having a base comprising a bottom wall 10 and angle iron legs 11, a rear wall 12, end walls 13, and a top wall 14.
A pair of angle iron 'rails 16' and 1'7 are secured at their ends by means of screws to brackets 18 attached to the end walls 13. (See Fig. 3.) To the rear faces of the rails 16 and 1'7 is permanently secured an insulator wall 19, forming together with said rails 16 and 1'7, an integral insulator wall "unit. The term insulator is used to denote the function of the wall in forming an insulating air space.
the
view through the Radiator brackets 20 are secured between the insulator wall 19 and rear wall 12. The brackets 20, insulator wall 19, and rear wall 12, form a conduit which provides a vertically extending air passageway 21, in which is located the steam radiator 22.
Nipples 23, threaded into the ends of the radiator 22, are extended through the brackets 20 and supported by means of U bolt hangers 24. Slots 25 in the brackets 20 allow vertical adjuste5 ment of the nipples.
To one of the nipples 23 is secured a valve 26.
A steam pipe 2'7 leads to the valve 26 and extends downwardly through the bottom wall 10 in the end space between an end' wall of the casing and the radiator and blower units respectively. Similarly a steam trap 28 is attached to the other nipple 23, extends downwardly, and is attached to an elbow 29 of a steam pipe 30.
Thenipples 23 support the weight of the radiator. The insulator wall 19 and rear wall 12 hold the radiator in upright position, against tilting about the axis of the nipples 23.
In the form of the invention shown in Fig. 6, shoulder plates 31 and 32 are secured to the horizontal flanges of the rails 16 and 1'7 respectively, and extend horizontally to the plane of the forward edges of the casing.
Clips 33 and 34 are secured to the inner sides of the end walls 13, near the lower and upper ends thereof, respectively. The clip 33 is secured by means of a screw 35 extended through a vertical slot 36 in the clip and thence threaded into the end wall 13. The slot 36 allows vertical adjustment of the clip.
A front panel 37 is, secured to the clips 34. The front panel includes a grille 38 through which air is discharged from the heater. The panel 3'7 rests against the edges of the plates 32 and 31, deriving support therefrom.
The lower portion of the panel 3'7 is lapped by a lower grille 39 which is carried by the clips 33, and which holds the lower portion of the panel 3'7 against outward buckling.
The ends of the panel 3'7 and grilles 38 and 39 project beyond the end walls 13 of the casing, thereby covering the edges of the building wall definingthe cavity in which the heater is received. Similarly, the upper region of the grille 38 extends upwardly beyond the upper wall 14, covering the lower edge of the building wall.
The cavity in the building wall is outlined ,by a frame 40 including a horizontal sill provided with a downwardly projecting shoulder 41,
spaced inwardly from the wall finish panel 42.
A flange 43 projecting upwardly from the top wall 14 of the casing, engages the shoulder 41 and may be secured thereto in any known manner to securely fasten the heater in the wall cavity. The finish panel 42, of plastering or the like, may then be extended to the top wall 14 without the necessity of securing it to the heater casing.
The front panel 37 is attached after the casing has been installed in its cavity in the building wall, and overlaps the panel 42 to conceal the edges of the cavity. If it is desired to inspect or repair the interior parts of the heater, this panel may be removed by simply removing the screws 52 securing it to the clips 34. The insulator wall unit 16, 17, 19, 31, 32, may thence be removed by removing the screws 15 by means of which the rails 16, 17, are attached to the brackets 18.
It is to be noted that the panel 37, if desired, may be removed without entirely removing the grille 39, the latter being loosened just enough to allow the lower end of the panel 37 to be slid upwardly until it is, free. The insulator wall unit may be removed through the opening thus provided.
The insulator wall 19 intercepts horizontal radiation from the radiator 22, keeps the panel 37 cool, and reflects back into the air stream flowing through the space 21, most of the heat it intercepts.
The grilles 38 and 39 are kept from overheating by the flow of air through them.
A baflle plate 53 is secured by means of an integral flange 44 to the plate 32 and extends upwardly in front of the radiator unit 22 to conccal the same from view through the grille 38, and to concentrate the air stream at the top of the casing so as to increase the horizontal velocity of the air delivered from the heater.
In the space in the bottom of the casing, opposite the grille 39,.is the blower unit including the blower 45 and motor 46, the blower taking in air at the points 47 (Fig. 1) and delivering it as indicated at 48 (Fig. 6). The upper wall of the blower is positioned closely adjacent the shoulder plate 31, whereby its discharge is concentrated into the space 21.
In that form of the invention shown in Fig. 7, which is designed for thin walled buildings, the upper portion of the casing is shallower than in the other form, sufficient space for the blower being provided by extending the plate 31 beneath and beyond the panel 37, and building out the lower regions of the end walls 13. The grille 39 includes a skirt 46 which covers the plate 31 and extended portions of the end walls 13, and presses the panel 37 into contact with the edge of the rail 16.
The panel 39 has an edge of sufficient thickness so that when the heater (either type) is installed on a floor wherein the base 11 rests on a subfioor member 47 and a layer of flooring 48 may be set down to laid up to the forward face of the base 11 as shown, the lower edge of the grille 39 may rest upon the flooring 48 and conceal its edge.
When'used in connection with a mosaic or concrete floor 49 as shown in Fig. 6, the grille bring its lower edge flush with the lower edge of the base 11, as'sho'wn. To this end, the grille is slidable past the forward face of the base.
In the operation of the heater, air is taken blower and thence discharged upwardly through the radiator and thence out through the upper grille 38 in a horizontal direction, as indicated by the arrows 50.
I claim as my invention:
1. In a heat transfer device of the type to be set into a wall, a casing including an upwardly projecting flange spaced rearwardly from the forward edge of its upper wall, adapted to contact a wall frame member projecting downwardly from the wall cavity which receives the heater, heat distributing means in the casing, and a grille detachably secured to the casing and projecting above said edge.
2. In a heat transfer device of the type to be set into a wall, a casing the front of which is open in its upper region, an upwardly projecting flange spaced rearwardly from the forward edge of its upper wall, adapted to contact a wall frame member extending downwardly from the wall cavity which receives the heater, heat exchange means in the casing, and a grille disposed over said opening and projecting above the casing top wall.
3. In a heat transfer device of the type to be set into a wall, a casing the front of which is open in its upper region, an upwardly projecting flange on the upper wall of the casing, spaced from the forward edge of said wall, and adapted to contact a wall frame member extending downwardly from the wall cavity in which the heater is received, heat exchange means in the casing, and a grille detachably secured to the casing, disposed over said opening, and projecting above the said upper wall to overlap the lower extremity of a wall finish panel.
4. In a heat transfer device of the type to be set into a wall, a casing having an intake opening disposed in its lower forward region, and including a bottom wall, and a grille secured to the casing oversaid opening and vertically adjustable forwardly of the forward edge of said bottom wall the lower edge of said grille being adapted to contact the surface of a floor when said casing is resting on said supporting surface. irrespective of the relative levels of said floor surface and supporting surface.
5. In a heat transfer device of the type to be set into a wall, a casing having an intake opening disposed in its lower forward region and including a base adapted to rest on a supporting 1 25 surface, and a vertically adjustable grille se-v cured to the casing over said opening, its lower extremity adapted to project over the forward face of said base, and its lower edge to contact the surface of a floor when said base is resting on a supporting surface, irrespective of the relative levels of said floor surface and supporting surface.
6. In a heat transfer device, a casing including spaced upright wall members defining a passageway, a pair of brackets forming end walls for said passage, a pair of nipples extending through said brackets and supported thereby, and a steam radiator threaded onto said nipples at its respective ends, vertical support being provided for said radiator by said nipples, and the radiator substantially filling the space between said walls and heldthereby against tilting around the axis of said nipples.
7. In a heat transfer device, an open front casing, a member horizontally traversing said open front and substantially flush with the forward edges thereof, a front panel formed with an upper grille and a depending skirt portion resting against said member, and a lower grille secured to the casing, overlapping the lower portion of said skirt portion, and securing the same a shoulder plate secured to said insulator wall and extending horizontally to said forward edges, a front panel covering said forward edges and including an upper grille portion and a depending skirt portion in contact with the forward edge of said shoulder plate, and a lower grille secured to said casing, overlapping the lower portion of said skirt, and securing the same against outward movement.
9. In a heat transfer device, an open frontcasing including a rear wall and end walls, an insulator wall secured therein, substantially parallel to the rear wall, and spaced both from the rear wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, a front panel removably secured to the casing, covering the edges thereof, and including an upper grille portion and 9. depending skirt portion in contact with the forward edge of the shoulder plate, and a lower grille secured to the casing, overlapping the lower portion of said skirt and securing the same against outward movement.
10. In a heat transfer device, an open front casing including a rear wall and end walls, an insulator wall secured therein, substantially parallel to the rear wall, and spaced both from the rear ,wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, a heat exchanger in the-space between-the insulator wall and the rear wall, a blower in the space below said heat exchanger and below said shoulder plate, a front panel removably secured to the casing, covering the edges thereof, and including an upper grille portion and a depending skirt portion in contact with the forward edge of the shoulder plate, and a lower grille secured to the casing, overlapping the lower portion of said skirt and securing the same against outward movement.
11. In a heat transfer device, an open front casing including a rear wall and end walls, an insulator I wall secured therein, substantially parallel to the rear wall, and spaced both from the rear wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, a front panel removably secured to the casing, and including an upper grille portion and a depending skirt portion in contact with the forward edge of the shoulder plate, and a lower grille secured to the casing, overlapping the lower portion of said skirt and securing the same against outward movement.
12. In a heat transfer device, an open front casing including rear and end walls, an insulator wall removably secured to the end walls therein, substantially parallel to the rear wall -and spaced both from the rear wall and from the forward edges of the end walls, a front panel'removably secured to the casing in a position spaced from said insulator wall, a heat exchanger in the space between said insulator wall and the rear wall, and a blower in the space below said heat exchanger.
13. In a heat transfer device, an open front casing including a rear wall and end walls, an insulator wall secured therein, substantially parallel to the rear wall, and spaced both from the rear wall and from the forward edges of the end walls, a shoulder plate secured to said insulator wall and projecting forwardly, and a front panel removably'secured to the casing in contact with the forward edge of the shoulder plate.
14. In a heat transfer device, an open front casing including rear and end walls, a pair of upright wall members spaced inwardly from and parallel to said end walls, an insulator wall removably supported in the casing, in close association with the forward extremities of said wall members, parallel to and spaced rearwardly from the forward edges of the casing end walls, a front panel removably secured over the open front of the casing and spaced from said insulator wall, a heat exchanger in the space between said insulator wall, said wall members, and the casing rear wall, and a blower in the space below the heat exchanger.
15. In a heat transfer device, an open front vertical air conduit including spaced upright end wall, members and an insulator wall removably supported in close association with said upright wall members 'and forming therewith an upright air passage, a fluid circulating heat exchanger in' said passage, fluid transmitting members connected to said exchanger through said upright wall members, a front panel removably secured over the open front of the casing and spaced from said insulator wall, and a blower in the space below the heat exchanger.
16. In a heattransfer device, an open front casing including spaced upright end wall members and an insulator wall removably; supported in close association with said upright wall members and forming therewith an upright air passage, a heat exchanger in said passage, supported upon said upright wall members, a front panel removably secured over the open front of the casing and spaced from said insulator wall, and a blower in the space below the heat exchanger.
17. In a heat transfer device, an open front casing including rear and end walls, a pair of upright wall members spaced inwardly from and parallel to said 'end walls, an insulator wall extending between the forward extremities of said upright wall members, a front panel covering said open front and spaced from said insulator wall, a heatexchanger in the space between said upright wall members, carried by said upright wall members, and a blower in the space below said heat exchanger.
18. In a heat transfer device, an open front casing including rear and end walls, a pair of upright wall members spaced inwardly from and parallel to said end walls, an insulator wall extending between the forward extremities of said upright wall members, a front panel covering said open front and spaced from said insulator wall, and a fluid circulating heat exchanger in the space between said upright wall members, fluid transmitting members connected to the heat exchanger through said upright wall members, and a blower in the space below said exchanger, positioned to discharge air into the passage formed bysaid upright wall members, the insulator wall, and the 'rear wall of the casing. V
19. In a heat transfer device, a circulating fluid radiator, a pair of fluid transmitting nipples projecting from the respective ends thereof,
respective ends thereof, and a cabinet ir L'which said radiator is installed; 'including means through which said nipples project, for supporting the radiator at its ends and means in close association with the forward and rear faces thereof confining said radiator so as to provide lateral support against tilting around the axis of said nipples. LACHLAN W. CHILD.
US585315A 1932-01-07 1932-01-07 Heater Expired - Lifetime US1937811A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4108238A (en) * 1976-08-24 1978-08-22 Robert F. Vary Energy saving device for habitable building enclosures having a heat changing system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4108238A (en) * 1976-08-24 1978-08-22 Robert F. Vary Energy saving device for habitable building enclosures having a heat changing system

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