US3479780A - Camber truss upper frame supporting means for sidewalls of an above ground swimming pool - Google Patents

Description

NGV. 25, T196@ 1 SCHWARZ ET AL 3,479,780

CANBER TRUss UPPER FRAME SUPPORTING MEANS FOR SIDEWALLS 0F AN ABOVE GROUND SWIMMING POOL Filed July 25. 1967 9 Sheets-Sheet l 5 Q7 69 94 TOP CHANNEL Q gf 91\ 6! 7 f/f SUPPORT/NG BAR FRAME L@ ,/f POST l i: ai@

e@ 1' S54 75 24 54 /5 /g )Si el '-3 v v. .94

iwf 95 L; f 97 7 95 VJ /97 v., O h/ 6] f in J1: PLYwooD PANEL "V: Dt/F521; f5.9

S/DEWALLS j f CAA/:BER BAR f SIDE A 7* CHANNEL BAR l 7/ 59 I.; /Z //V- L" Z/e AG L FORM TRL/ss /5 /n MEMBER 52 5 f z /HAQ 5 `r -5uPPoRT1NG P057' L1A1/ 95 .b S7 g 7` 95 l \i @I fr-r I 7" 70 J@ mi 94 /f 70 n END CHANNEL l 94 ?5 V :T /2 BAR /5 5 Ao.

7 ,54. @/75 9 i: 5 /4//7/ 7 Bf i INVENTORS Nov. 25, w69 J. SCHWARZ ET AL 3,479,780

@AMBER TRUSS UPPER FRAME SUPPORTING MEANS FOR SIDEWALLS OF AN Asov GROUND SWIMMING POOL Filed July 25. 1967 9 Sheets-Sheet 2 P E E suppe/2 mue -7\ 9/ d POST 75 l I 7 L l /Z l l l z @5i /Z @5 f t 90 PLAST/C 5\ PLYWOOD/ PANEL INVEN TGRS JZ//f'as Dona/d S ahw/:1re George i'4 UO/e5 Ofc/(dr von Bram/5 A/ Sidney J @Qa/man f' D Trop-@NEWT s-Sheet 5 POOL 9 She@ J. SCHWARZ ET AL SIDEWALLS OF AN ABOVE GROUND SWIMMING CAMBER TRUSS UPPER FRAME SUPPORTING MEANS FOR NOV. 25, g@

Filed July v25,

3,479,780 @AMBER TRUSS UPPER FRAME SUPPORTING MEANS FOR SIDEWALLS OF AN ABOVE GROUND SWIMMING POOL Filed July 25, 1967 Nov. 25, H969 J. SCHWARZ ET AL 9 Sheets-Sheet 4 INVENTORS J'u//us Dono/a Schwarz Gorge E. 17o/P65 OO/ar von Brad/sky S/'dneg J.r Goodman BY f Nov. 25, 969

J. SCHWARZ ET AL CAMBER TRUSS UFPER FRAME SUPPORTING MEANS FOR SIDEWALLS OF AN ABOVE GROUND SWIMMING POOL NOV. 25, 3959 1 SCHWARZ ET AL 3,479,780

TRUss UPPER FRAME SUPPORTING MEANS Fok CAMBER SIDEWALLS OF AN ABOVE GROUND SWIMMING POOL Filed July 25, 1957 9 Sheets-Sheet 6 Gear e E. DCM/65 7 O okar von BMK/6K 5f ,20 BY L/Uj 9 J'. d an mme/v5? NOV. 25, 11969 J. SCHWARZ ET AL 3,479,780

CAMBIA( 'IHUSS UPPER FRAME SUPPORTING MEANS POE SIDEWALLS OF AN ABOVE GROUND SWIMMING POOL Filed July 25, 1967 9 Sheets-Sheet '7 FLE iE INVENTO/ Jal/fus Dona/d Schwarz George E. 770K5 @fn/(ar z/c/vrad/g S/'dnef/ JT Good/27cm Nov. 25, 3969 J. SCHWARZ ET A1. 3,479,780

@AMBER TRUSS UFPER FRANE SUPORTING MEANS F0?, SIDEWALLS OF AN ABOVE GROUND SP'MINC FOOL Filed July 25, 1967 9 Sheeis-Sheet 8 SOZ 500A 4MM 69m 5W @M 5W 59M L J'u/us Dona/d Schwarz FJ. E E

George E. DOA/@S fOKar von Brads/(g Sla/ne JT G dma/'1 Nov. 25, 3969 J. SCHWARZ ET AL 3,479,780

TRUSS UPPER FRAME SUPPORTING MEANS FOR CAMBER SIDEWALLS OF AN ABOVE GROUND SWIMMING POOL Filed July 25, 1967 9 Sheets-Sheet QQQW Uted States Patent O 3,479,780 CAMBER TRUSS UPPER FRAME SUPPORTING MEANS FOR SlDEWALLS F AN ABOVE GROUND SWMMTNG POOL Julius Schwarz, Teaneck, George E. Dokes, Hillsdale,

Otokar von Bradsky, Westwood, and Sidney J. Goodman, Paramus, NJ., assgnors to Hendon Construction Company, Little Ferry, NJ., a corporation of New Jersey Filed July 25, 1967, Ser. No. 655,886 Int. Cl. E02d 27/32; E04c 3/04; E04li 3/16 ILS. Cl. 52-169 4 Claims ABSTRACT OF THE DISCLOSURE A camber truss upper frame `supporting means for sidewalls of an above ground swimming pool including an angle bar frame for supporting an upper portion of upright sidewalls of the swimming pool, channeled camber bars suitably aixed at opposite ends to the angle bars of the upper frame, and prefabricated truss members in a zig-zag form and mounted in cooperative relation between the angle bars and the camber bars.

CROSS-REFERENCE TO RELATED APPLICATION The present invention relates to improvements in a camber truss for providing a flexural upper frame for supporting in cooperative relation with a bottom frame a liner for carrying the water of a swimming pool above a ground level, which swimming pool may be of a type such as described and claimed in copending patent application Ser. No, 461,920 of Julius Donald Schwarz and George E. Dokes, now Patent No. 3,335,430, granted Aug. l5, 1967. Julius Donald Schwarz and George E. Dokes, the joint inventors of said patent application Ser. No. 461,920, are, together with Otokar von Bradsky and Sidney I Goodman, the joint inventors of the present invention and application.

BACKGROUND OF THE INVENTION Field of the invention Means for providing an improved flexural support for the upper portion of the sidewalls of a swimming pool having a liner for carrying the water of a swimming pool above a ground level.

Description of the prior art Heretofore, as described in the US. Patent No. 602,- 194, granted Apr. 12, 1898, to Edward L. Pease and in U.S. Patent No. 2,018,920 granted Oct. 29, 1935 to Herbert B. Mette, plural camber units have been utilized in supporting the walls of a house and in a retaining wall, respectively. While in a U.S. Patent No. 3,242,624, granted Mar. 29, 1966, to Kurt L. Stier, there are described prefabricated truss-structure sections utilized in an excavation preparatory to `pouring concrete for the base foundation of a swimming pool, followed by a subsequent back-filling of the space between the panels and the excavation wall, and an installing of a collar or walk of poured concrete around the top of the swimming pool.

These prior art patents fail to suggest the idea of means provided in the present invention for effecting a flexural upper frame to support the upper portions of the sidewalls of a swimming pool, together with a liner for carrying the water of the swimming pool above a ground level.

SUMMARY OF THE INVENTION In the present invention, there is provided a camber truss channel bar frame arranged in supporting relation rice about upper portions of the upright sidewalls of a swm ming pool, including camber bars suitable aflixed at opposite ends to the channel bars of the supporting frame, and prefabricated truss members positioned in cooperative relation between the channel and camber bars, said truss members being bent in a zig-zag form having opposite ends thereof suitably aixed in opposite angular portions of the camber bars. The intermediate diagonal portions of each of the truss members being affixed at the apices thereof alternately on surfaces of the channel bar and of the camber bar so as to permit a limited flexure of the upper channel bar frame in supporting, in cooperative relation with a bottom frame, the liner for carrying the water of the swimming pool above a ground level. Moreover, in such arrangement the channel bars of the upper frame may have end flange portions which are bolted together at corners of the upper frame with suitable anchor plates and angular corner plates so as to facilitate a knock-down construction of the upper channel bar frame, whereby it may be readily assembled and disassembled.

Thus, it is within the contemplation of the present invention to provide an above ground swimming pool liner supporting means of a simple construction that may be readily assembled with no special tools or skills, and with novel sidewall supporting camber 1bars providing superior strength and support to prevent distortion and bursting of the sidewalls of the pool under the pressure of the water contained therein.

Another object of the invention is to provide an improved swimming pool construction including a novel top frame of steel channel bars for effecting a flexural support of a liner for the pool above ground level.

Another object of the invention is to provide in com,- bination with a top frame of steel side channel bars, channeled camber bars affixed at opposite ends to a corresponding side channel bar, each camber bar including a truss rod of a zig-zag form positioned between the camber bar and the side channel bar with the ends of the truss rod suitably aflixed in opposite angular portions of the channeled camber bar, while intermediate diagonal portions of each of the truss members are afxed to surfaces of the side channel bar and of the camber bar so as to permit a limited exure of the side channel bars of the upper frame in supporting, in cooperative relation with a bottom channel bar frame, a liner for ra swimming pool above ground level and under pressure of the Water carried within the liner of the swimming pool.

These and other objects and advantages of the invention are pointed out in the following description in terms of the embodiments thereof, which :are shown in the accompanying drawings. It is to be understood, however, that the drawings are for the purpose of illustration only and are not a definition of the limits of the invention, reference being had to the appended claims for this purpose.

BRIEF DESCRIPTION OF THE DRAWINGS In the drawings, in which corresponding parts have been indicated by like numerals:

FIGURE 1 is a fragmentary top plan sectional view of a swimming pool assembly embodying the invention and` illustrating in section the arrangement of a suitable plastic liner for carrying the water of the pool, cooperating with plywood panel sidewalls and a novel camber truss angle bar frame arranged in supporting relation about an upper portion of the sidewalls;

FIGURE 2 is an enlarged fragmentary sectional top plan view showing the detail structure of a corner of the swimming pool assembly of FIGURE l;

FIGURE 3 is an enlarged fragmentary sectional view taken along the lines 3--3 of FIGURE 1 and looking in the direction of the arrows so as to show the detail structure Vof a cornerV connection of the top angle bar frame. FIGURE 4 is an enlarged fragmentary sectional view taken along the lines 4-4 of FIGURE 1 and looking in the direction of the arrows so as to show the detail structure and arrangement of the angle bar, camber bar and truss member in relation to the supporting post.

FIGURE 5 is an enlarged fragmentary vertical sectional view of a side of the swimming pool assembly of FIGURE l, as applied to a swimming pool of a type such as that described and claimed in U.S, Patent No. 3,335,- 430 to which reference has been made heretofore.

FIGURE 6 is an enlarged top plan view of a modified form of the channel bar, camber bar and zig-zag form truss member for the angle bar frame of FIGURE 1, and showing bolts for fastening the camber bar truss to the channel bar,

FIGURE 7 is an enlarged fragmentary sectional View taken along the line 7-7 of FIGURE 6 and looking in the direction of the arrows so as to show the detail structure and arrangement of the angle bar, camber bar land truss member of the modified form of FIGURE 6 with the bolt for fastening the camber bar truss to the channel bar shown in an operative relation.

FIGURES 8, 9 and 10 are enlarged fragmentary sectional views of additional modified forms of the channel bar, camber bar and zig-zag form truss structure and arrangement from that shown by FIGURE 7.

FIGURES ll and 12 are fragmentary vertical sectional views of modified forms of the swimming pool assembly of FIGURE 5, and illustrating application of the modified channel bar and camber bar truss structure of FIGURES 8 and 9, respectively, to the deck and Outrigger structure of 'FIGURE 5.

FIGURE 13 is a fragmentary vertical sectional View Of a further modified form of the swimming pool assembly of FIGURE 5 and illustrating the application of an additional modified form of channel bar and camber bar truss structure to the deck and Outrigger structure of FIG- URE 5.

FIGURES 14 and 15 are fragmentary vertical sectional views of additional modified forms of the swimming pool assembly of FIGURE 5 and illustrating the application of other modified forms of the channel bar and camber bar truss Structure which may provide a preload for the top angle bar frame, an interlock for the supporting posts while also serving to directly support the pool deck planks which may ybe bolted to the channel bar and camber bar truss, as shown, as well as directly supporting the side rail ofthe pool or similar superstructure and in addition providing an interlock for an upper edge portion of the plywood panel sidewalls of the above ground swimming pool.

FIGURE 16 is a fragmentary perspective View of a modified form of camber channel bar truss such as illustrated in FIGURE ll and showing that the truss may be of a continuous sheet metal web of a zig-zag form suitably Isecured Or welded at the apices thereof in the U-shaped channels of the opposite channel bars.

FIGURE 17 is a fragmentary perspective view of a further modified form of the camber channel bar truss of FIGURE 16 and showing that the truss may be of a continuous metal bar web of a zig-zag form suitably secured or welded at the apices thereof to Opposite camber bars which may have inverted U-'shaped channels as shown.

FIGURE 18 is a fragmentary perspective view of the modified form of camber channel bar truss such as illustrated in FIGURE l1 and illustrating the inward `bow imparted to the upper portion of the plywood panel sidewall by the inner side channel bar and showing that the outer camber channel bar for the truss rests upon a cross bar of the' Outrigger lstructure of FIGURE 5.

FIGURE 19 is an enlarged top plan view of a modified form of the channel bar and camber bar truss for the angle bar frame of FIGURE l and showing discontinuous sectional channel bars and camber bar truss members with fastening plates and bolts securing the sections in operative relation as shown.

FIGURE 20 is an enlarged fragmentary sectional view taken along the lines 20-20 of FIGURE 19 and looking in the direction of the arrows so as to show the detailed structure and arrangement of the channel bar, camber bar and truss member sections of the modified form of FIGURE 19 with the bolts and plates for fastening the sections shown in an operative relation so as to form one continuous long truss out of a series Of shorter truss lengths.

FIGURE 21 is an enlarged fragmentary perspective view illustrating a manner of fastening a corner of the sectional channel bars and camber bar truss members of the modified form of FIGURE 19 in a channel bar frame of the type shown by FIGURE l.

FIGURE 22 is a fragmentary vertical sectional view of a further modified form of the swimming pool assembly of FIGURE 5, illustrating application of a camber bar truss of a channel bar construction in which there is eliminated the additional channel bars to interlock with upper ends of the supporting posts for the sidewall panels of the pool and in which further modified form of the invention the outward pressure of the water supported by the plastic liner is transmitted directly through the sidewall panels and the supporting posts to the camber bar truss.

FIGURE 23 is an enlarged fragmentary perspective view illustrating a manner of fastening a corner of the further modified camber bar truss of the channel construction of FIGURE 22 in a top camber bar frame of the type shown by FIGURES l and 5.

FIGURE 24 is an enlarged top plan view of a further modified form of the channel bar and camber bar truss of FIGURE 1 and showing a plurality of camber bar sectional trusses bolted together in an operative relation within a main camber bar.

-FIGURE 25 is an enlarged top plan view of another modified form of channel bar frame in which the supporting channel bars are shown of a continuous U-shape channel type with a plurality of sectional supporting bars, camber bars and truss mem-bers, each of the supporting bar sections being secured by fastening bolts to a side of one of the channel bars, the camber bar sections being secured together by fastening bolts and plates, while certain of the parts of the channel bar frame are shown in dotted outline.

FIGURE 26 is an enlarged fragmentary top plan view of a portion of one of the truss members in assembled relation in a camber bar section to better illustrate the detail structure thereof.

DESCRIPTION OF THE INVENTION Referring to the drawings and particularly FIGURES 1 and 5, there is shown an improved construction, embodying the present invention of a camber truss upper frame supporting means 5 for sidewalls 7 of a swimming pool, which may be of a type described and claimed in U.S. Patent No. 3,335,430; and a swimming pool which may -be mounted above a ground level 11, as shown by the fragmentary sectional side view of FIGURE 5.

The pool construction includes a liuid tight liner indicated generally by the numeral 12, and carried above the level of the ground 11 by an assembly of a rectangular top frame 14 of steel channel bars 15 supported by a corresponding rectangular bottom frame 16 of steel channel bars resting on the ground level 11, as shown in FIGURE 5, and explained in the U.S. Patent No. 3,335,430.

The liner 12 may be of any suitable flexible sheet material that is somewhat stretchable, and a vinyl plastic material such as polyvinylchloride has been found tO be very satisfactory. There is provided along the upper or top free edge of the liner 12 and extruded bead that may be snapped into a liner lock strip or other suitable means and fastened to the underside of an inner joist 20 supporting a pool deck, as explained in the U.S. Patent No. 3,335,430.

The liner 12 has a vertical portion 22, which is adapted to be pressed tightly under pressure of the water carried by the liner 12, against the inner surface of sidewalls or plywood panels 7. Each of the panels 7 has an upper edge mounted in a suitable channel 27 provided in the joist 20. The panels 7 are positioned between the joists 20 and the ground level 11, as shown in FIGURE 5, and the joists 20 serve not only to lock the plywood panels 7 in a vertical position, but also to automatically align and prevent any shifting of the pool deck.

Further, a steel angle bar 28, as shown `by FIGURES 1 and 2, is set vertically at each outer corner of the sidewalls 7 and within each corner of the top channel bar frame 14 and the lower channel bar frame 16 between the plywood walls 7 and the inside flange of the U-shaped channel bars of the top frame 14 and the inside flange of the U-shaped channel bars of the lower frame 16. The corner angle bars 28 are thereby locked at the upper and lower ends thereof and extend vertically from the inner corner of the U-shaped channel bars of the lower frame 16 for the full height of the sidewalls 7 being further locked at the upper end in a suitable channel provided in the inner joist 20. The corner angle -bars 2S serve to prevent the adjacent corner of the plywood panels or sidewalls 7 and the liner 12 resting against it from moving out of position or bursting.

A bottom portion 29 of the liner 12 will be stretched and pressed tightly under the pressure of the water filling the pool against a sand bottom 30 suitably formed so that the bottom portion 29 of the liner 12 is pitched at an incline from the vertical wall portions 22 of the liner 12 toward a suitable drain opening provided therein and connected through suitable plumbing means to drain the water from the pool, as desired. Further, there is provided a suitable water inlet xture which opens through a wall portion of the liner 12 and is connected to a suitable water supply means for filling the pool, as explained in U.S. Patent No. 3,335,430.

A feature of the present invention is the provision of the novel camber truss upper frame 5 and the assemblage thereof in relation to the rectangular top frame 14 of steel angle bars 15 for supporting the upper portions of the sidewalls or plywood panels 7, and thereby the Water lled pool liner 12 above ground level under pressure of the water, while the lower portions of the sidewalls 7 are supported by a corresponding rectangular bottom frame 16 of steel channel bars resting on the ground level 11, as shown in FIGURE 5, and assembled as explained in the aforementioned U.S. Patent No. 3,335,430.

With the bottom channel frame 16 thus assembled, the plywood panels 7, shown in FIGURES l, 2 and 5, are then set edgewise in the ground inside the bottom channel frame 16 and against the U channel bar of the frame 16 with the smooth side of the plywood panels 7 facing out.

A series of wooden supporting posts 52 and 54, as shown in FIGURES l, 2 and 5, extend vertically from the channel hars of the bottom frame 16 with the lower ends of the posts 52 and 54 standing in the U channel of the bars of the bottom frame 16. The bottom of the supporting posts are suitably chamfered, as indicated at 53 in FIGURE 5, to t the channels of the U bar of the bottom frame 16 so as to render a full bearing surface for the plywood panels 7.

Care should be taken that the lower end portions 55 of the plywood panels 7 are ush with the bottom of the channel bars 16 of the bottom frame, as shown in FIG- URE 5. The plywood panels 7 are then secured by nails or suitable wood screws to the posts 52 and 54.

Referring now to FIGURE 5, each of the supporting posts 52 and 54 has fastened thereto a supporting beam 56, and adjacent an upper portion of the supporting post 52 there is aixed a cross bar 57, which projects outwardly at a right angle to the supporting post 62. The cross lbar 57 is supported by the supporting beam 56 and, in turn, carries an outer deck joist 58 arranged in spaced relation to the inner deck joist 20. The joist 20 is carried by the upper portion of the sidewalls or panels 7, which are mounted in the channel 27 provided in the joist 20 foi supporting the pool deck. The pool deck includes suitable planks 59, which are nailed to the joists 20 and 58, while top posts 60, as shown by FIGURE 5, are each secured to the cross bar 57 by suitable bolts 61 and to the outer deck joist 58 by a second bolt 62. The deck of the pool may be further constructed, as described in the aforementioned U.S. Patent No. 3,335,430.

Steel channel bars 15 of the rectangular top frame 14 are now assembled with outer and inner ange portions and 66 respectively, lying flat on the top surface of the cross bars 57, and extending transversely of the bars 57, as shown by FIGURE 5. The ange portions 65 and 66 extend at right angles to a main portion 67 of the channel bar 15 which is positioned so as to lie flat along a lower surface of the inner joist 20, as best shown by FIGURES 4 and 5.

The outer ange portions 65 of the channel bars 15 have a camber truss flat steel adaptive member 70 extending along the outer surface of each ange 65 and suitably fastened thereto as by welding at 71, as indicated by FIGURE 4. End portions 72 of the channel bars 15 are clamped together by a suitable metal plate indicated generally by the numeral 73, in FIGURES l, 2 and 3, and secured thereto by suitable means such as by welding, rivets or bolts 75.

As shown in detail by FIGURE 3, the metal plates 73 are secured to the end portions 72 of the channel bars 15 in an assembled relation by suitable fastening bolts 75 passing therethrough from the outer side and being fastened at the opposite inner side of the channel bars 15 by suitable retaining nuts 79 screw threadingly engaged on the fastening bolts 75. All corners of the upper frame 14 are similarly connected by the plates 73 and bolts 75, as shown by FIGURE 1.

The novel camber truss upper frame 5 of the present invention, includes the provision of a bowed camber bar 81, which is fastened at opposite end portions 83 to the at steel adaptive member 70 extending along the outer surface of the flange portion 65 of the channel bar 15 by being welded thereto at 85, as shown by FIGURE 2, or through other suitable fastening means. The camber bars 81 are formed of hot rolled flat spring steel, which is bowed or has a bend formed therein adjacent the opposite ends thereof and additional bends 94 therafter, as shown by FIGURES l and 2.

There is also inserted between each bowed camber bar 81 and the steel channel bar 15 a spring steel truss member or rod 89 made in one piece and bent into a zlg-Zag form with opposite ends thereof fastened by suitable means, as by welding at 91 to the inner surface of the camber bar 81 at the additional bends 94 in the bowed camber bar 81, as shown by FIGURE l.

The truss member 39, in the zig-zag form shown, provides alternate V-shaped bends having apices 95 and 97 which alternately bear upon the flat steel adaptive member 70 extending along the flange portion 65 of the channel bar 15 and upon the inner surface of the chamber bar 81 so that there is effected an inward bow or arch to each of the channel bars 15 of the top channel bar frame 14 at the middle portion thereof. Furthermore the spring steel truss member or rod 89 is suitably fastened as by welding at the apices 95 and 97 thereof to the adaptive member 70 and the camber bar 81, as shown by FIG- URE 4.

The supporting posts 52 and 54 are inserted between the. inwardly bowed channel bars 15 and the sidewalls 7 to effect a corresponding inward bow or arch at the upper ends of the sidewalls 7. The camber truss upper frame thus serves to flex or arch the channel bars inwardly so as to provide a novel flexural top channel bar frame 14 of greater strength for supporting, in cooperative relation with the bottom channel bar frame 16, the pool liner 12 above the ground level 11 and under the pressure of the water carried within the liner 12.

Thus, as the pressure of the water within the liner 12 increases, the apices 95 and 97 of the zig-zag form truss member 89 being welded to the adaptive member 70 and camber bar 81, respectively, bear upon the outer surface of the flange portion `65 of the channel bar 15 so as to tend to resiliently support the channel bar 15 in relation to the inner surface of the camber bar 81 so that the angle of the alternate V-shaped bends in the truss member 89 effectively increase under tension, thereby providing a substantial increase in the strength of the structural support provided for the liner 12 by the top frame 14 in cooperation with the bottom frame 16. Thus, the water capacity of the liner 12 supported above the ground level 11 may be substantially increased without danger of distortion or bursting of the sidewalls 12 of the assembled pool under the pressure of the water contained therein,

MODIFIED FORMS OF THE INVENTION Modified forms of the invention, as heretofore described with reference to FIGURES l through 5, are shown in FIGURES 6 through 26 in which corresponding parts have been indicated by like numerals bearing appropriate sufxes indicating the modified form.

Thus, in the modified form of the channel bar camber truss of FIGURES 6 and 7, the camber truss adaptive member 70A is shown secured to the flange portion 65A of the channel bar 15A by suitable fastening bolts 71A passing through the outer tiange portion 65A of the channel bar 15A from the outer side of the camber truss adaptive member 70A and being fastened at the opposite inner side of the channel bar 15A by suitable retaining nuts 77A screw threadedly engaged on the fastening bolts 71A. The structural arrangement of the modified channel bar camber truss 5A of FIGURES 6 and 7 in the top channel bar frame of FIGURES 1 and 5 being otherwise substantially as heretofore described.

Further, in the modified form of the invention of FIG- URES 8, ll and 18, there is provided a channel bar camber truss adaptive member 70B welded at 71B to the outer flange portion 65B of the channel bar 15B and a camber channel bar 81B. The truss member 89 has the alternate V-shaped bends welded at the apices 95B and 97B to the inner surface of the channel bar member 70B and the inner surface of the camber channel bar 81B, and is otherwise substantially the same as the structure heretofore described with reference to FIGURES 4 and 5.

The modified form of FIGURES 9 and l2 differs from the form of FIGURE 8 merely in the provision of an angle bar camber truss adaptive member 70C and a camber angle bar 81C while the modified form of FIGURE l() differs from the form of FIGURE 4 in the securing of the truss member 89D directly by the welding of the apices 95D thereof to the outer surface of the tiange portion 65D of the channel bar 15D, thereby eliminating the camber truss adaptive member 7() of FIGURE 4.

Likewise, the form of the invention of FIGURE 13 is similar to FIGURES 9 and l2 except for an elimination of the camber truss angle bar adaptive member by securing the truss member 89E directly to the outer surface of an angle bar flange portion 65E of an angle bar 15E in which the inner flange 66C of the channel bar 15C has also been eliminated. The structure of the form of FIGURE l3 is otherwise substantially the same as that heretofore described with reference to FIGURES 9 and l2.

A further modified form of the invention is illustrated by FIGURE 14 in which the outer deck joist 58E of FIGURE 13 has been eliminated by the utilization of a camber channel bar 81F while the inner deck joist 20E of FIGURE 13 has been eliminated by the utilization of a channel bar 15F having an outer angle bar flange portion -65F and an inner flange portion 66F. Within the channel bar ISF there is provided an inner channel bar F having downwardly extending flange portions F and 166F forming therewith a U channel in which is received and upper end of the supporting post 52F.

The inner channel bar 115F has the flange portion 166F secured to the inner surface of the ange portion 65F of the channel bar 15F by suitable means such as by welding at 17F, while the flange portion 166F is positioned in spaced relation to the inner surface of the ange portion 66E of the channel bar 15F. A main portion 67F of the channel bar 15F has formed therein suitable screw threaded openings in which there may be received suitable screw treaded bolts 172F which pass through planks 59E of the pool deck from the outer side.

Each bolt 172F is fastened at the opposite side of the pool deck in screw threaded engagement in the screw threaded opening in the main portion 67E of the channel bar 15E. One of the fastening bolts 172F is shown in operative engagement in FIGURE l4.

Similarly other screw threaded fastening bolts 174F pass through the planks 59F from the outer side being fastened at the opposite side of the pool deck in another screw threaded opening in an upper flange portion of the channel camber bar 81F while a bolt 62E extends through a lower end portion of the top post 60F from the outer side thereof and is secured at an inner end in screw threaded engagement in a suitable screw threaded opening formed in a main portion of the camber channel bar SIF, as indicated in dotted lines at FIGURE 14.

It will be further noted that the upper end of the side wall panel 7F is received in the space between the flange portion 166F of the inner channel bar 115F and the inner surface of the liange portion 66E of the channel bar 15F.

It will be seen that the novel arrangement of the channel bar camber truss of FIGURE 14 may serve the following functions:

(1) Provide a preload for the channel bar frame 14F of the above ground swimming pool;

(2) Provide through the channel bars 115F an interlock for the upper ends of the side wall 7F supporting posts 52E;

(3) Directly support the pool deck planks 59F through the arrangement of the channel bar 15P and the camber channel bar 81F together with the deck plank fastening bolts 172F and 174F;

(4) Directly support the side rail posts 60E for the pool deck through the arrangement of the camber channel bar 81F and fastening bolt 62F as well as similar superstructure to be carried by the posts 60E; and

(5) Provide through the arrangement of the flange 166F of the inner channel bar 115F in spaced relation to the inner surface of the flange portion 66F of the channel bar 15P means for effecting an interlock for the upper edge portions of the sidewall panels 7F, as shown by FIGURE 14.

In order to effect the aforenoted functions with a more simplified arrangement the modified structural arrangement of FIGURE l5 was provided. This arrangement is quite similar to that of FIGURES 8, 11 and 18, except that in the channel bar 15G the flange portions 65G and 66G extend downwardly from the main portion 67G in a sufficiently spaced relation to provide a U-shaped channel to receive both the upper end portion of the supporting post 52G as well as an upper end vportion of the sidewall panels 7G supported by the posts 52G, yas heretofore explained.

Furthermore, as shown by FIGURE 15, the deck planks 59G rest upon the main portion 67G of the channel bar 15G as well as upon the upper liange portion of the channel bar camber truss adaptive member 70G and the upper ange portion of the camber channel bar 81G. The

9 planks 59G being secured thereto by suitable fastening bolts 172G and 174G.

The bolts 172G and 174G pass through the planks 59G from the outer side of the pool deck and are fastened at the opposite inner side of the adaptive lmember 7GG and the camber channel bar S1G, respectively, by suitable retaining nuts 176G and 178G, as shown by FIGURE 15.

The top post 60G is further fastened in position by a bolt 62G which extends through a lower end portion of the top post 60G from the outer side thereof and is secured at an inner end in screw threaded engagement in a suitable screw threaded opening formed in a main portion of the camber channel bar 81G, as indicated in dotted lines at FIGURE 15.

FIGURE 16 illustrates another modification in the truss in that the truss 89H may be in the form of a sheet metal strip welded or bolted at the apices thereof 95H and 97H in the channels of the respective channel bar adaptive member 70H and the camber channel bar 81H, while the modified form of FIGURE 17 illustrates the truss 89] as a bent bar welded or bolted at the apices thereof 95] and 97] to the surfaces of an adaptive member 70] and camber bar 81] which may be in the form of inverted U-shaped channel bars 70] and 81] or the truss may be in the form of a flat bar member.

FIGURES 19, 20 and 21 illustrate a further modified form of the invention in which the channel bar frame 14K may be formed of discontinuous sectional channel bars 115K and sectional channel bar camber truss adaptive members 70K secured together by suitable fastening plates 201K and 203K as well as sectional camber channel bars 81K that may be secured by plates 205K and 207K. The respective plates 201K, 203K, 205K and 207K may be secured in an operative relation by suitable fastening means such as rivets, welding or bolts 211K passing through the respective plates, bars and members and being secured on the inner side by screw threadedly engaged nuts 213K, as shown by FIGURE 20.

A similar plate 201K and fastening bolts 211K secured on the inner side by screw threadedly engaged nuts 213K may be used to secure the sectional channel bars 15K together at the corners of the channel bar frame 14K, as shown by FIGURE 21.

In the modified form of the invention illustrated by FIGURES 22 and 23 the channel bar for interlocking the upper end portions of the supporting posts SZL has been eliminated, and the pressure of the water applied to the sidewalls 7L through the plastic liner 12L is transmitted to the truss 89L through the supporting posts 52L which in turn support the side panels 7L.

As shown in detail in FIGURE 23, at the corners of the channel bar frame 14L, there is provided a right angled comer bracket 300L which is secured in the channels of the respective channel bar members 70I. by suitable fastening means such as rivets, welding or fastening bolts 302L. The structure of the assembly will be otherwise the same as that heretofore described with reference to FIGURES 5, 8, 11 and 18.

A further modified form of the sectional form of FIG- URES 19, 2O and 21 is illustrated in FIGURE 24 in which a plurality of separate camber bars 81M are provided secured at opposite ends by fastening plates 400M and suitable fastening screws to a channel bar 15M as in FIGURE and including in co-operative relation with each camber bar mounting a truss 89M which may be of the structure heretofore described,

Extending over the respective separate camber bar mountings 81M is a main resilient camber bar 410M' which may be connected in a suitable manner at 0pposite ends of the channel bar M, at 400M, and cooperatively arranged in relation to the separate camber bar mountings 81M to resiliently support the channel bar 15M upon tension being applied thereto by the pressure of the water carried by the plastic liner as heretofore explained with reference to FIGURES 5 and 10.

An additional form of a sectional channel bar frame 14P is shown by FIGURES 25 and 26 in which the supporting channel lbars 15P are shown as of continuous U channel type as in FIGURE 1, but including a plurality of sectional camber bars 81P, sectional truss members 89P, and sectional adaptive members 70P. The sectional adaptive members 70P may be bolted to the flange portion P of the channel bar 15P by suitable bolts 71P passing through the outer flange portion 65P of the channel bar 15P and being fastened at the opposite innerside of the channel bar 15P by suitable retaining nuts 77P screw threadedly engaged on the fastening `bolts 71P, as in the form of FIGURES 6 and 7. Furthermore, in the form of FIGURES 25 and 26, the respective sectional camber bars 811 may be suitably connected together by fastening plates 5001 bolts 5021 and fastening nuts 504P, as shown in FIGURE 25 and in detail in FIGURE 26.

The form of FIGURES 25 and 26 is operatively arranged in the channel bar frame so as to operate, as heretofore described with reference to FIGURES 1 and 5.

Although numerous embodiments of the invention has been illustrated and described, various changes in the form and relative arrangements of the parts, which will now appear to those skilled in the art may be made without departing from the scope of the invention. Reference is, therefore, to be had to the appended claims for a definition of the limits of the invention.

What is claimed is:

1. In a swimming pool assembly of a type including upright sidewalls, a bottom frame for supporting lower portions of the sidewalls, supporting posts for the sidewalls extending vertically from the bottom frame, a top frame for supporting upper portions of the supporting posts, a liner for carrying water for the pool above a ground level, the liner having a vertical portion, .a bottom portion and an upper edge, the vertical portion of the liner extending adjacent inner surfaces of the sidewalls, the bottom portion of the liner being positioned adjacent surfaces of the ground, means for securing the upper edge of the liner adjacent the top frame, and the top frame including a plurality of side bars interconnected at opposite ends and positioned adjacent the upper portions of the supporting posts; the improvement comprising a plurality of sectional camber trusses mounted along an outer side surface of one of said side bars, each sectional camber truss including a camber bar and a resilient truss bar, each resilient truss bar being positioned between the corresponding camber bar and the outer side surface of said one side bar, means for serially connecting the camber bars of the sectional camber trusses mounted along said outer side surface of said one side bar so als to effectively position said camber bars in an operative relation to effect a flexural top frame for supporting in cooperative relation with the bottom frame the upper portions of the adjacent supporting posts and sidewalls and thereby the liner for carrying the water of the pool above the ground level, a main resilient camber bar extending over the camber bars of the plurality of sectional camber trusses, and means connecting opposite ends of the main camber bar in spaced relation on -said one side bar adjacent opposite ends of the side bar to resiliently support said side bar upon tension being applied thereto by the water carried by the liner.

2. The improvement defined by claim 1 in which each resilient truss bar is provided in a zig-zag form having alternate V-shaped bends with apices which alternately bear upon the outer side surface of said one side bar and an inner surface of the camber bar of the corresponding sectional camber truss, and said truss bar having opposite ends secured in spaced relation along at least one of said surfaces in spaced relation.

3. The improvement defined by claim 2 including means for securing the resilient truss bar at the apices of alternate bends therein to at least one of said surfaces.

4. In a swimming pool assembly of a type including upright sidewalls, a'bottom frame for' supporting lower portions of the sidewalls, supporting posts for the side- Walls extending vertically from the bottom frame, a top frame for supporting upper portions of the supporting posts, a liner for carrying water for the pool above a ground level, the liner having a vertical portion, a bottom portion and an upper edge, the vertical portion of the liner extending adjacent inner surfaces of the sidewalls, the'bottom portion of the liner being positioned adjacent surfaces of the ground, means for securing the upper edge 'of the liner adjacentthe top frame, and the top frame including a plurality of side bars, interconnected at opposite ends and positioned adjacent the upper portions -of the supporting posts; the improvement in which the top frame includes locking means within said side bars for receiving upper portions of the sidewalls together with upper portions of the supporting posts for locking said'upper portions in a fixed relation, said locking means including a pair of channel bars, one of said pair of channel bars being positioned within the other of said pair ofchannel bars, upper portions of the support-V ing posts being mounted in a channel portion of said one channel bar, upper portions of said sidewalls being mounted in a channelV portion of said other channel bar and the upper portions of said sidewalls being positioned between an outer side surface of said one channel bar and an inner side surface of said other channel bar so as to lock the upper portions of the supporting posts and sidewalls in said iixed relation.

References Cited UNITED STATES PATENTS 1,174,931 3/1916 Furry 52-640 1,788,183 1/1931 Aleson 52-644 2,333,136 11/1943 Wolfard 52-640 2,722,294 11/1955 Lagaard 52-640 3,239,975 3/1966 Stier 52-169 3,335,430 8/1967 Schwartz 52-169 FOREIGN PATENTS 68,723 12/ 1948 Neitherlands.

633,673 1/1962 Canada. 1,377,887 9/1964 France.

843,710 8/1960 Great Britain.

HENRY C. SUTHERLAND, Primary Examiner U.S. C1. XR.

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