US2033901A - Radiator shell - Google Patents

Description

March 10, 1936. E, lRELAND 2,033,901 y RADIATOR SHELL Original Filed April 25, 1950 Patented Mar. 10, 1936 UNITED STATES PATENT oFFIcEY RADIATOR SHELL Original application April 25, 1930, Serial No. 447,379. Divided and this application July 20, 1935, Serial No. 32,442

16 Claims. (Cl. 18o-68) features to be introduced into the structure. the radiator shell in conjoined relation to mini- 5v Ordinarily radiator shells are formed as lnmize production costs. Fig. 5 is atransverse secf tegral units by stamping or die pressing them tional view on line 5-5 of Fig. 4. Fig. 6 is a from sheet material in the form of pans and perspective View illustrating the side members of thereafter removing the bottoms of the pans and the shell separated from each otherV and after any other unwanted portions as Waste material. removal of waste material incident to the die 10V Itis frequently desirable, however, to incorporate pressing operation. Fig. 7 is a transverse secin a radiator shell more or less ornamental sectional View of the two side elements on line 1-1 tions which perhaps cannot be economically proof Fig. 6. Fig. 8 is a sectional perspective view duced in the die pressing operation by which the on line 8 8 of Fig. 3. remainder of the shell is formed 'or which may Like parts are indicated by similar characters 15. necessitate the use of different metals, different of reference throughout the several views. shaping or forming operations, or use of other The radiator shell, forming the subject matter characteristically different materials.` hereof, as illustrated in Fig. 1 comprises two 'Ihe present radiator shell, which comprises transversely contoured inverted substantially L multiple interconnected elements may be proshaped side members l--I arranged in a revers- 20 duced with minimum waste of materials and the edly disposed relatively spaced relation and terelements may be variously formed'of dissimilar minally interconnected one with the other into materials if desired, which when united affords a unitary structure by an interposed ornamental a radiator shell of pleasing highly ornamental panel or coupling section 2. This ornamental appearance at minimum costs of production. intermediatesection 2 may be of material diifer- 25 The object of the invention is to p-rovide a ing from that of the side members l or it may be radiator shell which may be economically and shaped or treated by production methods difierconveniently manufactured with minimum Waste ent from the die pressing operation' by which the of material, and which will permit a wide range side elements I are preferably formed. The side of variation of design With minimum change of elements I produced from the same forming die 3o production dies. may be assembled with coupling sections or orna- A further object o-fthe invention is to provide mental panels 2 of various different designs to a radiator shellcomprising an assembly of iniproduce a variety of radiator shells having diftially separately formed portions which are inferent ornamental appearances. terconnected into a unitary structure after being While the side elements l may be separately 35 shaped. formed in different right and left forming dies, A further object of the invention is to provide for economy of production and to facilitate manua radiator shell in which are incorporated ornafacture, these side elements are preferably simental or other portions differing characteristimultaneously formed in pairs from a single blank Vcally from adjacent portions of the shell.v at the same forming operation. 40

With the above primary and other incidental The sheet metal blank from which the right objects in view, as will more fully appear in the and left side are conjointly formed comprises an specification, theinvention consists of the feaoblongV strip of material of relatively small ditures of construction, the parts and combinamensions having a'vvidth slightly greater than tions thereof, and the mode of operation, or their double the width of the metal of the finished side 4.5 equivalents, `as hereinafter described and set members of the shell plus the necessary area of forthin the claims. material for holding the sheet While it is bein Referring to the accompanying drawing wheredie pressed to the required shape. p Y in'is 'shown the preferredbut obviously not nec- The length of the blank is substantially that essarily the only form of embodiment of the inof one of the side elements plus the necessary 50 vention Fig. l is a perspective view of the assemterminal gripping area for engagement of the bled radiator shell forming the subject matter blank holder of the forming die. By thus formhereof. Fig.`2 is a'top plan view thereof. Fig. 3 ing the right and left side elements of the radiator is a, perspective View of a pair of side elements shell simultaneously from a single blank by one die pressing operation, not only is great saving This invention relates to automobile radiator shells, and more particularly to a composite shell assembled from a plurality of initially separate parts, therebyV enabling distinctive, ornamental of the shell disposed in their ultimate relation to each other before being interconnected by an in-V termediate ornamental panel or coupling section. Fig. 4 is a perspective view illustrating one method of producing the side elements of effected in the material required and the waste thereof reduced to minimum, but the draw or stretch of the material is equalized during the forming operation, and the draw of each section is opposed to that of the opposite section, which has been found to be quite advantageous. After conjoint formation of the right and left side elements I they are longitudinally severed one from the other and trimmed toremove as waste material the blank holding areas by which the sheet is gripped during the forming operation. While the separate si'de elements thus produced may be directly interconnected one to the other by welding or otherwise, providing they are sufiicient size, they are preferably interconnected with the intermediate ornamental panel or coupling member 2. While for illustrative purposes there is shown in the drawing a very simple form of radiator shell of substantially inverted U shape, opened at the bottom, it is to be understood that the lower end of these side elements I may be interconnected by a transverse portion at the bottom or they may be initially formed with inwardly extending arms which may be united directly one to the other or interconnected by an intermediate coupling portion analogous to the interposed ornamental sections 2. Being mere duplication such bottom connection has not been shown.

Preparatory to the forming operation the sheet metal blank is initially bent into curvilinear form as at the point 3 and again bent reversedly as at A to adapt it to the shape of the forming die. rI'his initial bending of the sheet metal blank provides work holding areas 5 and 6 located at the ends of the oblong sheet and similar Work holding areas located at the longitudinal margins thereof. 'Ihese areas to be gripped, particularly those in the region of maximum draw are engaged between coacting ribbed and grooved matching areas of the blank holder to prevent undue iiow of the metal from the edges of the blank into the central area as the drawing operation is effected. Not only are the side elements l substantially L shaped in their longitudinal aspect but the cross section of each of these shell elements is approximately L shaped. The formation of the reverse contours of the right and left side elements from a single sheet of material produces a channel shaped formation and insures a uniform draw of the metal, particularly at the region of maximum depth which occurs at the longitudinal bend of the side elements. Such formation of the two side members of the radiator shell having like but oppositely contoured shapes at the same time enables displacement of the like amounts of material in opposite directions and thus produces a uniform stretch of the metal and a balanced resistance pressure upon the die. When the pair of side elements have been conjointly formed as illustrated in Fig. 4 the holding areas 5, 6, '1, and 8 are trimmed therefrom and the formed structure is cut along a medial line thereby producing the two concave L shaped forms indicated at I5 and I6 in Fig. 6.

The edges Il of the parts I5 and I5 may then be shaped if desired to form a ledge I 8 along which the shell makes contact with the face of the radiator core when assembled therewith. The separated parts I5 and I6 are welded or otherwise terminally united with the intermediate ornamental panel or coupling section 2 to form the complete radiator shell. This intermediate coupling member is ordinarily provided with the usual filler opening 2I through which water may be introduced to the completed radiator.

While the simultaneous production of right and left side elements at a single operation greatly facilitates the manufacture and minimizes cost of production and has a further advantage of affording equalized or uniform draw and die resistance pressure, it is to be understood that the members I5 and I6 shown in Fig. 6 may be independently formed in separate dies and subsequently united with an intermediate ornamental panel or coupling section 2 in the relation illustrated in Figs. 1 and 2.

From the above description it will be apparent that there is thus provided a device of the character described possessing the particular features of advantage before enumerated as desirable, but which obviously is susceptible of modification in its form, proportions, detail construction and arrangement of parts without departing from the principle involved or sacrificing any of its advantages.

While in order to comply with the statute, the invention has been described in language more or less specific as to structural features, it is to be understood that the invention is not limited to the specic features shown, but that the means and construction herein disclosed comprise the preferred form of several modes of putting the invention into effect, and the invention is therefore claimed in any ci' its forms or modifications within the legitimate and valid scope of the appended claims.

This application is a division of application, Serial Number 447,379 filed April 25, 1930.

Having thus described the invention, what is claimed is:

1. A radiator shell comprising two relatively spaced substantially half portions of inverted L shaped channel formation and an intermediate separately formed spacer member to which the separated portions of the L shaped channel formation are terminally connected into an integral U shaped body.

2. A radiator shell including two sections, each including integral vertical and transverse portions of channel formation, said sections being disposed in reverse relation in a common plane with like sides of the portions extending in the same general direction in substantially parallel spaced relation with their transverse portions extending in reverse relation, one toward the other, and a separately formed spacer member interposed intermediate corresponding ends of the top portions and to which said portions are iixedly united.

3. A radiator shell comprising two sections of channel formation eachincluding integral vertical and horizontal portions disposed in reverse relation in a common plane, an ornamental panel overlapping the adjacent ends of the respective sections and terminally interconnecting one to the other with the vertical portions extending in substantially parallel relation in the same direction.

4. A composite radiator shell comprising a plurality of initially separate elements interconnected into a unitary structure and including right and left integral curvilinear channel side elements arranged in oppositely disposed relatively spaced relation, and an interposed separately formed ornamental body to which the opposite side elements are terminally interconnected to form an integral radiator shell assembly.

5. A composite radiator shell assembly including side portions terminating at the top of the shell in inwardly directed relatively spaced portions, and a separately formed ornamental insert interposed between the spaced ends of said side portions and xedly united thereto to form a complete radiator shell unit.

6. A composite radiator shell assembly including two side elements shaped into channel shaped curvilinear formation and terminating at the top of the shell in inwardly directed relatively spaced top portions, and a separately formed ornamental coupling section interposed between the relatively spaced inwardly directed top portions of the side elements and fixedly united thereto to form a unitary structure.

7 A composite radiator shell assembly comprising two elements, each including integral vertical and transverse portions shaped into curvi linear channel formation and having transverse portions inwardly directed and connected one to the other at the top of the shell, and a separately formed ornamental section mounted medially of the top of the shell and fixedly connected to said inwardly directed portions to form a unitary structure.

8. A composite radiator shell assembly, comprising two half portions each including integral complementary side and top portions having their upper ends inwardly directed at the top of the shell and a separately formed ornamental section mounted in a medial position at the top of the shell common to and xedly attached to the said inwardly directed top portions to form a unitary structure.

9. A composite radiator shell assembly comprising two curvilinear channel shaped sections, each including integrally formed vertical and transverse portions disposed in reverse relation in a common plane with the transverse portions inwardly directed and terminally connected one to the other with like vertical portions extending in substantially parallel spaced relation, and a separately formed ornamental section mounted at the juncture of the curvilinear channel shaped portions and xedly united therewith to form la unitary structure.

ally of the connected top portions and xedly attached thereto to form a unitary structure.

11. In a composite radiator shell assembly, opposite complementary side portions and transverse reversely disposed top portions formed integrally with the respective side portions, means for holding the reverse top portions in immovably xed relation with each other, said assembly including a separately formed ornamental panel located medially of the relatively xed top portions of the shell assembly.

12. In a composite radiator shell assembly, opposite complementary relatively spaced parallel side portions and transverse top portions formed integrally with the respective side portions, means for uniting the top portions to hold the same in xed relation with each other, said means including a separately formed ornamental panel overlapping the adjacent ends of the respective top portions.

13. A radiator shell including two parallel spaced side portions and complementary transverse half top portions formed integrally with the respective side portions and overhanging the space therebetween, and an ornamental panel extending vertically over the front face of the shell and thence rearwardly over the top thereof, the opposite margins of which extend in overlapping relation with the complementary halves of the top portion to which the panel is iixedly attached.

14. A radiator shell including two parallel spaced side portions and complementary transverse half top portions formed integrally with the respective side portions and overhanging the space therebetween, and an ornamental panel extending transversely over substantially the entire width of the top portion and also longitudinally thereof in opposite directions from the medial line of the shell in overlapping relation with the complementary halves ofV the top portion to which the panel is xedly attached.

15. A radiator shell comprising two complementary channel shaped curvilinear sections, each including integral, vertical and transverse portions, the curvilinear sections being reversely disposed in a common plane and terminally connected one to the other to form a continuous integral radiator shell including an ornamental section ai'lixed to the shell in symmetrically disposed relation to the respective sections thereof.

16. A composite radiator shell including a pair of complementary channel shaped curvilinear die pressed sections, each comprising integral, vertical and transverse portions, the sections being arranged in reversely disposed relatively xed relation in a common plane and terminally interconnected one with the other to aiord a unitary symmetrical radiator shell.

EDITH MAY IRELAND, DWIGHT B. IRELAND, Executors Under the Will of Geofrge E. Ireland,

Deceased.

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