Spa/hot tub cover removal apparatus and method

A spa cover removal apparatus. The removal apparatus includes a pair of elongate spaced apart side arms. One end of each side arm is pivotally connected to the bottom side portion of a spa side, and the opposing end rotatingly engages a side edge of the spa cover. In this way, the spa cover can rotate in relation to the side arms such that a horizontal cover rotation axis is defined by the axis of rotation of the spa cover relative to the side arms. A back rack is pivotally coupled to the rear edge of the spa cover to enable the spa cover to pivot, relative to the back rack, about a horizontal cover pivot axis. In addition, a base bracket assembly is provided for pivotally connecting the back rack to the back surface of the spa. This enables the back rack to pivot, relative to the base bracket assembly, about a substantially horizontal back rack pivot axis. With this arrangement, a rearwardly directed force can be increasingly applied to the spa cover causing the same to lift and move rearward, above the spa, wherein the side arms pivot relative to the spa, and the back rack pivots relative to the base bracket assembly, responsive to rearward movement of the spa cover. As a result, the spa cover shifts from a first horizontal covering position over the spa, to a second stowed position adjacent the back surface of the spa.

This application claims the benefit of U.S. Provisional Application No. 
60/028,721 filed Oct. 17, 1996. 
BACKGROUND 
Spa cover removal systems and mechanisms are known in the art. Such 
mechanisms vary widely in complexity, ease of operation and cost of 
manufacturing. In recent years, the rise in popularity of spas/ hot tubs 
has hastened the development of spa covers and removal apparatus therefor. 
One early design for cover removal is disclosed in U.S. Pat. No. 4,857,374 
issued to Perry (Gary L.) in 1989. The Perry design employs gas springs 
that extend from the sides of a spa to a spa cover that is hinged to the 
rear of the spa. In this way, the gas springs assist the user to pivot the 
cover to a vertical position, away from the top of the spa. 
U.S. Pat. No. 4,853,985 issued to Perry (Cliff R.) in 1989 shows a cover 
assembly for use with a spa. The cover assembly includes a cover member 
mounted for rotational movement to the spa structure by mounting arms. The 
mounting arms are arranged relative to the cover member so that the cover 
member travels along a path from a covering position to an open position. 
Additionally, the '985 device includes tension springs. Because of the 
arrangement of the mounting arms and their attachment to the spa cover, 
the design is not easily adaptable for use with spa covers that fold back 
to expose only a portion of the spa. 
U.S. Pat. No. 4,991,238 issued to Forrest in 1991 shows a spa cover lift 
that includes one or more struts for positioning a movable frame adapted 
for pivotable attachment to the side of a spa. The lift includes apparatus 
for receiving a spa cover from the spa and retaining the cover adjacent 
the movable frame. The struts are operable to displace the movable frame 
to an extended position to provide a surface onto which a spa user can 
slide a spa cover. Because the Forrest device requires that the entire spa 
cover be moved rearward onto the movable frame, a single user could find 
it difficult to slide a large heavy cover. 
U.S. Pat. No. 5,131,102 issued to Salley in 1992 shows a device for use in 
conjunction with a spa cover mounted for pivotal movement to facilitate 
the removal of the cover away from the vicinity of the spa or spa when the 
same is in use. A bridge arm supported by two side arms is pivotally 
attached to a base. The bridge arm can be pivoted into position adjacent 
the spa cover. With the spa cover folded over, the bridge arm is pivoted 
clearly away from the spa. The arrangement of the '102 device is such that 
it provides support to the spa cover only at the cover's folding point 
during the removal process. Accordingly, a portion of the cover slides 
over the spa as a user operates the device to remove the cover. 
U.S. Pat. No. 5,471,685 issued to Cross in 1995 shows a support for a cover 
of a hot tub/ spa having a pair of roller support arms, each having a 
pivotal connection for securing it to the spa. The pivotal connections 
each comprise an attachment member for mounting on a vertical outer wall 
of the spa, with a hinge connecting the support arm to its attachment 
member for pivotation between operative and inoperative positions. Like 
the Forrest device, the entire spa cover must be moved rearward onto the 
frame. 
U.S. Pat. No. 5,517,703 issued to Ouelette in 1996 shows a lifting 
mechanism for removing and restoring a hinged spa cover from a spa tub. 
Two tubular brackets are cojoined so that base members on the brackets are 
aligned parallel, adjacent to one end of the spa, and arms on the brackets 
extend along opposite sides of the spa. The cojoined base members are 
pivotally mounted so that the lifting arms are rotatable between a first 
lowered position and a second raised position. Support beams are connected 
to the lifting arms over which the hinged sections of the cover are 
foldable when the arms are in the first position allowing the cover to be 
lifted clear of the spa when the arms are moved to the second raised 
position. Like the Salley device, the '703 cover removal apparatus, during 
the removal process, provides support to the spa cover only at the cover's 
folding point. 
U.S. Pat. No. 5,584,081 issued to Ouelette in 1996 shows a lifting frame 
for a hinged spa cover having a pair of adjustable lifting arms pivotally 
mounted adjacent the side walls of a spa. A U-shaped foot actuated lever 
is connected to the lifting arms with the base of the lever extended 
across one end wall of the spa. The upper part of the arms are equipped 
with one or more supports that are adjacent to and parallel with the cover 
hinge whereby the cover is foldable over the support or supports when the 
lifting arms are in a first position. The foot lever is elevated when the 
lifting arms are in the first position, and depressing the lever causes 
the arms to be rotated to a second position whereby the folded cover is 
supported in a vertical position adjacent one end wall of the spa. Like 
the earlier Ouelette invention, the spa cover is supported only at its 
folding point. 
U.S. Pat. No. 5,634,218 issued to Ouelette in 1997 shows a lifting frame 
for a hinged spa cover having a pair of adjustable lifting arms pivotally 
mounted on or adjacent to a side wall of a spa. The upper part of the arms 
are equipped with one or more supports that are adjacent to and parallel 
with the cover hinge with the cover being foldable over the support or 
supports when the lifting arms are in a first horizontal position. 
Rotation of the frame causes the folded cover to be rotated to a second, 
vertical position adjacent one end wall of the spa. Similar to the other 
Ouelette devices, this design provides support to the spa cover only at 
its folding point. 
U.S. Pat. No. 5,644,803 issued to Wilson in 1997 shows a spa support 
assembly that is provided with a plurality of support arms having upper 
and lower ends with the lower ends pivotally attached to an external 
surface of the spa side wall for pivotal rotation of the upper ends of the 
support arms through an arc from a point above and adjacent to the side 
wall to a point away from the side wall at a point where the upper ends of 
the support arms are within the generally horizontal plane defined by the 
top surfaces of the side walls and at a distance away from the side wall. 
Like the prior '238 and '685 patents, the Wilson device requires that the 
user slide the spa cover rearward over the spa during the removal process. 
None of these earlier designs allow a user to easily remove a folded spa 
cover from a spa such that the entire spa cover is fully supported and 
shifted away from the spa without having the spa cover slide over or 
contact the top spa surfaces during the shifting procedure. 
SUMMARY OF THE INVENTION 
One object of the present invention is reduce the effort required to remove 
a spa cover from a spa. 
A second object is to facilitate the removal of a spa cover from a spa by 
only one person. 
Another object is to protect expensive spa covers by simplifying the 
removal process thereof from a spa. 
Yet another object is to reduce the expense of heating water in spas by 
promoting the use of spa covers that are easily removed by one person. 
A further object is to reduce wear on the top surfaces of a spa. 
Still another object is to fully support a spa cover so that all portions 
thereof lift away from a spa during the cover removal process. 
The invention is a spa cover removal apparatus for assisting the user in 
the repositioning and/or removal of a spa cover from a spa/hot tub. The 
removal apparatus includes a pair of elongate spaced apart side arms: each 
side arm being disposed adjacent a spa side of the spa. One end of each 
side arm is pivotally connected to the bottom side portion of a spa side, 
and the opposing end rotatingly engages a side edge of the spa cover. In 
this way the spa cover can rotate in relation to the side arms such that a 
horizontal cover rotation axis is defined by the axis of rotation of the 
spa cover relative to the side arms. The arrangement of each side arm 
being the mirror image of the other. A back rack is pivotally coupled to 
the rear edge of the spa cover to enable the spa cover to pivot, relative 
to the back rack, about a horizontal cover pivot axis. In addition, a base 
bracket assembly is provided for pivotally connecting the back rack to the 
back surface of the spa. This enables the back rack to pivot, relative to 
the base bracket assembly, about a substantially horizontal back rack 
pivot axis. With this arrangement, a rearwardly directed force can be 
increasingly applied to the spa cover causing the same to lift and move 
rearward, above the spa, wherein the side arms pivot relative to the spa, 
and the back rack pivots relative to the base bracket assembly, responsive 
to rearward movement of the spa cover. As a result, the spa cover shifts 
from a first horizontal covering position over the spa, to a second stowed 
position adjacent the back surface of the spa. 
In another aspect of the invention as the spa cover initially shifts from 
the first horizontal covering position over the spa, to the second stowed 
position, the entire spa cover moves upward as well as rearward. 
In another aspect of the invention the side arms are parallel and extend 
upward, in relation to horizontal, at an angle between 52 degrees and 56 
degrees from the bottom side portion of a spa side to the side edge of the 
spa cover. 
The foregoing and other objects, features, and advantages of this invention 
will become more readily apparent from the following detailed description 
of a preferred embodiment which proceeds with reference to the 
accompanying drawings.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS 
FIGS. 1 through 9 show a spa/hot tub cover removal apparatus in accordance 
with the present invention. The spa cover removal apparatus is hereinafter 
referred to as a cover cradle 24. The cover cradle 24 is provided to 
assist in the removal and/or repositioning of a spa cover 26 from a 
spa/hot tub 28. 
Primarily, the cover cradle 24 comprises a pair of elongate spaced apart 
parallel side arms 30 and 32, the side arms 30-32 being disposed on 
opposite sides, i.e., spa side 33 and spa side 35 of the spa 28. The side 
arms 30-32 are constructed substantially alike, typically from tubular 
aluminum, wherein the lower end 34 of side arm 30 is pivotally connected 
to the bottom side portion 36 of spa side 33. Further, the opposing upper 
end 38 rotatingly engages the side edge 40 of the spa cover 26. 
Importantly, it should be appreciated that the construction, arrangement 
and positioning of each side arm 30-32 is the mirror image of the other. 
In addition, a horizontal cover rotation axis 44 is defined by the 
connection of the side arms 30-32 to the spa cover 26. 
To pivotally support the spa cover 26 at the rear thereof is a back rack 46 
pivotally coupled to the rear edge 48 of the spa cover 26. In this way, 
the spa cover 26 is enabled to pivot about a horizontal cover pivot axis 
50 which is defined by connection joint 52 disposed between the back rack 
46 and the spa cover 26. 
For pivotally connecting the back rack 46 to the back surface 54 of the spa 
28, a pair of horizontally spaced base bracket assemblies 56-57 are 
provided. As will be discussed more fully below, each base bracket 
assembly is fastened to the back surface 54 by a plurality of ordinary 
threaded fasteners. Moreover, the back rack 46 is pivotally coupled to the 
base bracket assemblies 56-57 to enable the back rack 46 to pivot about a 
substantially horizontal back rack pivot axis 58. 
With a cover cradle 24 constructed and disposed as noted above, the weight 
of the spa cover 26 is transferred to the cover cradle 24 as a rearwardly 
directed force is applied to the spa cover 26. For example, as a 
rearwardly directed force is applied to the spa cover 26, by pulling the 
rear handle 60 thereof, the back rack 46 pivots rearward about the back 
rack pivot axis 58 causing the spa cover 26 to rotate about the cover 
rotation axis 44. Accordingly, the cover rotation axis 44 translates 
substantially rearward. As a result, the spa cover 26 simultaneously 
pivots about the cover pivot axis 50, wherein the cover pivot axis 50 
likewise translates rearward and also downward. 
In this way, the spa cover 26 shifts from a first horizontal "spa covering" 
position over the spa 28 where the weight of the spa cover 26 is 
substantially supported by the spa 28, to a second stowed position to the 
rear and downward relative to the back surface 54 of the spa 28 wherein 
the weight of the spa cover 26 is supported substantially by the back rack 
46 of the cover cradle 24. As will be discussed more fully below, a 
biasing member 62, such as a gas spring 63, is operatively disposed 
between each base bracket assembly 56-57 and the back rack 46. The biasing 
member 62 is adapted to provide increasing resistance against the pivoting 
action of the back rack 46 as the same pivots about the back rack pivot 
axis 58 to shift the spa cover 26 to the second stowed position. 
Considering now in more detail the structure of the components from which a 
cover cradle 24 is constructed, FIG. 6 illustrates a cover cradle 24 
operatively connected to a spa 28, and to a spa cover 26 disposed 
thereover. As illustrated, a side arm 30 extends upward from the bottom 
side portion 36 of a spa 28 to the side edge 40 of the spa cover 26. It 
should be appreciated that in the preferred embodiment, the side arm 30 is 
substantially parallel to the side of the spa 28. 
More specifically, as illustrated in FIG. 7 the lower end 34 of side arm 30 
is connected to the bottom side portion 36 of the spa 28 via a side arm 
pivot assembly 64. The side arm pivot assembly 64 includes a side pivot 
bracket 66 that is fastened to the spa 28 by a plurality of threaded 
fasteners such as common wood screws. Additionally a pivot wheel 68 is 
mounted to the side pivot bracket 66, and is secured in place by a 
threaded insert 70 that is fixed to the side pivot bracket 66 and projects 
outward therefrom. So that the pivot wheel 68 can fit closely against the 
side pivot bracket 66, a portion of the pivot wheel is countersunk (not 
illustrated) so that the same can be received over the threaded insert 70. 
With the side arm pivot assembly 64 in place, a side arm 30 is pivotally 
attached thereto by a bolt 71 that extends through the lower end 34 of 
side arm 30, and similarly through a centrally disposed hole 72 located 
through the pivot wheel 68, the hole 72 being positioned to align with the 
threaded insert 70. In this way, the bolt 71 can threadedly engage the 
threaded insert 70 to support and maintain the side arm 30 in position. 
Further it should be noted that in the preferred embodiment, a bushing 74 
is provided through the side arm 30 to reinforce the same, and to guide 
the bolt 71 therethrough. 
The pivot wheel 68 is disposed to provide a substantially flat surface 73 
against which the side arm 30 can bear and pivot. This arrangement helps 
to maintain the rigidity against transverse sway, thereby increasing 
lateral stability of the side arms 30-32. Accordingly, the flat surface 73 
must be parallel to the direction that the side arm 30 extends. For most 
configurations of spas, the side pivot bracket 66 is mounted to a straight 
non-curving bottom side portion 36 as illustrated in FIG. 7. Accordingly, 
the pivot wheel 68, is constructed so that the surface that bears against 
side pivot bracket 66 (not illustrated) is parallel to surface 73. 
However, the shape of some spas require that the side pivot bracket 66 be 
attached thereto on a curved portion of surface. When this situation 
arises, a wedged shaped pivot wheel 75 must be substituted for pivot wheel 
68. In this way, the wedge shaped pivot wheel 75 compensates for the 
curved surface so that the side arms 30-32 are maintained parallel to each 
other. It should be understood that when a wedged shaped pivot wheel 75 is 
employed, the need for a side pivot bracket is eliminated. In this 
situation, the wedged shaped pivot wheel 75 is secured directly to the spa 
28. 
Beyond this, each side arm 30-32 extends upward and is attached to the spa 
cover 26 such that the same is allowed to rotate. For this purpose, a side 
hinge 76 is fixed to the side edge 40 by a plurality of fasteners 81. In 
addition, a side hinge spacer 85, used in certain situations where 
additional space is required, is disposed between the side hinge 76 and 
the side edge 40. For spa configurations where the side hinge 76 falls on 
a curved surface, a side wedge 87 can be substituted for, or added to, the 
side hinge spacer 85 to compensate for the curvature thereby ensuring 
proper seating of the eye end 78. The side hinge 76 is provided as a 
rotational connection point between the spa cover 26 and the side arm 30. 
Specifically, a post 77 projects outward from the side hinge 76 for 
engagement with the eye end 78 disposed on the upper end 38 of side arm 
30. The eye end 78 is formed and constructed to be securely received 
within a side arm. The eye end 78 includes a hole 79 through which a screw 
80 is guided and fastened to the post 77 of side hinge 76. By forming this 
connection, the spa cover 26 is enabled to rotate about a cover rotation 
axis 44 while being supported by the side arm 30. 
In the preferred embodiment, the side arm 30 extends upward at an angle of 
approximately 52 to 56 degrees. As will be discussed more fully below, 
this configuration causes the spa cover 26 to raise from the spa 28 
substantially simultaneously when the spa cover 26 is pulled rearward. 
This action prevents interference between the spa 28 and the spa cover 26 
when the same is moved to, or from, the second stowed position. It should 
be noted that the opposing side arm 32 is similarly attached such that it 
is a mirror image of side arm 30. With this construction, the side arms 
30-32 are parallel. 
Directing attention to FIG. 5, for connection of the side hinge 76 to the 
spa cover 26, aluminum cover channels 83 (illustrated by phantom lines) 
are embedded, and/or fixed to the side edge 40. The cover channels 83 are 
disposed such that the side hinge 76 is approximately 29 to 30 inches from 
the back hinges 96-97, i.e., from cover rotation axis 44 to cover pivot 
axis 50, which represents the optimal distance. Specifically, the cover 
channels 83 are secured to the spa cover 26 as disclosed in U.S. Pat. No. 
4,857,374 issued Aug. 15, 1989 to Perry wherein this patent is hereby 
incorporated by reference. 
For example a cover channel 83 having pre drilled holes to match the 
fastener pattern of the side hinge 76 are located inside the vinyl 
encasement 82, attached to the cover's core 84. In this way, the loads 
generated at the side hinge 76, by a side arm can be more evenly 
distributed to the core 84 of the spa cover 26. 
Turning now to FIGS. 5-6 and 8-9 a back rack 46 is illustrated. The back 
rack 46 is operatively disposed between the spa cover 26 and the base 
bracket assemblies 56-57: the back rack 46 being pivotally connected to 
the spa cover 26 and to each opposing base bracket assembly 56-57. As 
noted above, the spa cover 26 pivots about a cover pivot axis 50 defined 
by connection joint(s) 52 disposed between the back rack 46 and the spa 
cover 26. Additionally, the back rack 46 pivots relative to the back 
surface 54 of the spa 28 via base bracket assemblies 56-57. 
Specifically, a back rack 46 is provided to render increasing support to 
the spa cover 26 as the same shifts rearward and downward to a stowed 
position as best illustrated in FIG. 4E. A back rack 46 includes a 
symmetrically constructed planar back panel 86 configured to receive a 
pair of spaced back arms 88-89. The back arms 88-89 are so received at 
horizontally opposed ends of the back panel 86. A back panel 86 is 
constructed from a pair of spaced parallel tubular frame members 90-91 
that are connected at the ends thereof to a pair of spaced panel ends 
92-93. The panel ends 92-93 are fabricated from sheet metal: shaped and 
attached to the frame members 90-91 so as to form an open top end 94, 
i.e., a passage, through which the opposing spaced back arms 88-89 are 
received and secured. Moreover, the panel ends 92-93 are securably fixed 
to the frame members 90-91 to maintain a substantially square rigid planar 
structure, i.e., back panel 86. In the preferred embodiment, the majority 
of connected parts are joined using common threaded fasteners, however, 
other means of fastening, such as welds or rivets, could be employed. 
Turning now to FIGS. 5 and 8, it can be seen that back arms 88-89 are 
curved and extend from the back panel 86 to the spa cover 26. Similar to 
the side arms 30-32, the back arms 88-89 are pivotally connected to the 
spa cover 26. To facilitate this connection, a pair of back hinges 96-97 
are provided and fixed to the rear edge 48 of the spa cover 26. Similar to 
the side hinges, the connection of the back hinges 96-97 to the spa cover 
26 is facilitated by a cover channel 83 disposed inside the vinyl 
encasement 82 adjacent the core 84 as previously noted. 
Each back hinge 96-97 is constructed to form a pair of parallel spaced dog 
ears 100 between which an eye end 102, of a back arm 88-89, is pivotally 
received and secured by a screw or bolt 104. Like eye end 78, eye end 102 
is constructed to securely be received into a tubular member. Because the 
bolt 104 defines the pivot point of the spa cover 26 and the back rack 46, 
the bolt 104 is coaxial with the cover pivot axis 50. The eye end 102 is 
so secured by a bolt 104 that is guided through a commonly disposed and 
aligned hole. Accordingly, an eye end 102 is fixedly disposed on each 
respective end of the back arms 88-89. In addition, for those situations 
where a back hinge is connected to a curved surface (not illustrated) a 
rear hinge wedge 98 can be employed to compensate for the curvature and 
ensure that the connection of the eye end 102 is square to the back hinge 
96 or 97. 
As noted above, the back rack 46 is pivotally connected to a pair of 
horizontally spaced base bracket assemblies 56-57. It should be 
appreciated that the base bracket assemblies 56-57 are constructed so that 
the back panel pivot axis 58 is offset, i.e., set rearward from the spa 
28. For this reason the back arms 88-89 are curved. In this way, the eye 
end 102 of the back arms 88-89 immediately lift upward as the spa cover 26 
is pulled or moved in a rear ward direction. Thus, the spa cover 26 is 
substantially raised from the spa 28, by the back rack 46 in combination 
with the side arms 30-30, at the first movement of the spa cover 26 in a 
rearward direction. 
Like the side arms 30-32, each base bracket assembly 56-57 is of like 
construction: each being the mirror image of the other. Considering now 
the components of the base bracket assemblies, only base bracket assembly 
56 will be discussed: it will be assumed that the components of base 
bracket assembly 57 are substantially a mirror image thereof. Acting 
together, the base bracket assemblies 56-57 pivotally support the back 
rack 46 such that the same pivots about a back rack pivot axis 58. 
Accordingly, the base bracket assemblies are fixedly mounted to the back 
surface 54 so that loads imparted to the back rack 46 are transferred to 
the spa 28. 
To provide pivotal support, base bracket assembly 56 comprises a plurality 
of interconnected components. Importantly, a base bracket 106 having a 
flange 107 is mounted to the back surface 54 by a plurality of threaded 
fasteners 108 disposed through flange holes 109 disposed through flange 
107. It should be noted that in various spa configurations, the back 
surface 54 is curved. To compensate for this, a shim (not illustrated) can 
be placed between the flange 107 and the back surface 54. Additionally, 
the angle of the flange 107 to the base bracket 106 can be modified to 
compensate for the curved spa surface. Typically, the above noted angle 
ranges between 90 degrees and 102 degrees. 
Secured to the base bracket 106 is a pivot bar 110 that extends 
horizontally past the base bracket 106 for pivotal engagement with the 
lower portion of the back rack 46. Specifically, a threaded fastener is 
guided through hole 112 into threaded insert 114. In this way, the back 
rack 46 is pivotally connected to the pivot bar 110. 
Because the load imparted to the back rack 46 increases as the spa cover 26 
is pulled rearward, a gas spring 63 is provided to resist a portion of the 
load. The gas spring 63 is operatively disposed between the base bracket 
assembly 56 and the back rack 46. To facilitate this connection, a lower 
gas spring bar 116 is vertically mounted from the base bracket 106. It 
should be noted that the lower portion of the lower gas spring bar 116 is 
connected to the back surface 54 by a flex brace 118 riveted to the lower 
gas spring bar 116 and fastened to the spa. The lower gas spring bar 116 
includes a plurality of lower gas spring holes 120 through which a ball 
stud 122 is secured. The ball stud 122 is provided for engagement with a 
socket (not illustrated) located on the lower end of the gas spring 63. It 
should be noted that the ball stud 122 is secured through the lower gas 
spring holes 120 via a slot nut 124 disposed within a slot (not 
illustrated); the slot being countersunk into one side of the lower gas 
spring bar 116. Accordingly the ball stud 122 is received by socket head 
123. 
To receive the barrel end 126 of the gas spring 63, an upper gas spring bar 
128 having a ball stud slot 130 is provided. The upper gas spring bar 128 
is secured to panel end 92 of the back rack 46 as illustrated in FIG. 8. 
The ball stud slot 130 is disposed to receive therethrough a ball stud 132 
secured to a slot nut 133. Like the lower gas spring bar 116, a portion of 
the upper gas spring bar 128 is countersunk (not illustrated) to receive 
the slot nut 133. With this configuration, the ball stud 132 can be 
properly positioned to receive the socket head 134 of barrel end 126. 
Accordingly, the gas spring 63 can assume an infinite number of positions 
thereby providing a wide range of adjustment for the amount of load it 
assumes to resist. 
Directing attention to FIGS. 10, 11 and 12 an alternate embodiment is 
illustrated. The alternate embodiment is provided so that side arms 30-32 
can be adapted to mount to spas having extreme curved bases as best seen 
in FIGS. 11-12. For this purpose, side pivot bracket 136, having a 
threaded insert 137, is secured at one end thereof to a flanged bracket 
138 via corner bracket 140. Likewise, the opposite end of the side pivot 
bracket 136 is secured to a front bracket 142. It should be noted that a 
front bracket 142 is optional depending on the severity of the curved spa 
surface. Accordingly, the side pivot bracket 136 is mounted to the spa 28. 
Turning now to FIG. 13 an additional embodiment showing a side arm pivot 
assembly 144 is illustrated. This embodiment is provided to facilitate the 
connection of a side arm to a rounded portion of a spa side 33. Included 
therein is a side arm pivot bracket 145 disposed to rotatingly support 
side arm 30. To reduce friction between the side arm pivot assembly 144 
and the side arm 30, a pivot disk 148 is disposed therebetween. Typically, 
a pivot disk 148 is constructed from a low friction material such as hard 
plastic. To facilitate the connection of the side arm pivot bracket 145 to 
the spa 28, extension legs 146-147 extend from the side arm pivot bracket 
145 to the spa 28. For this purpose, a plurality of fasteners 149 are 
employed through a plurality of holes 150 as illustrated. For adjustment 
purposes, the holes in the extension legs can be slotted (not 
illustrated). Finally, the extension legs 146-147 are attached to the spa 
28 by common wood screw type fasteners 152. 
In operation, the cover cradle 24 transfers the spa cover 26, and the 
weight thereof, from the spa 28 rearward such that the spa cover 26 is 
supported substantially entirely by the back rack 46. This transfer is 
responsive to the user urging the spa cover 26 rearward such that the side 
arms pivot relative to the spa 28, and the back rack 46 pivots relative to 
the base bracket assemblies 56-57. Accordingly, the spa cover shifts 
rearward from a first horizontal covering position over the spa 28, to a 
second stowed position adjacent the back surface 54 of the spa 28. 
Importantly, the reverse of this procedure is followed to reposition the 
spa cover 26 over the spa 28. 
Having illustrated and described the principles of my invention in a 
preferred embodiment thereof, it should be readily apparent to those 
skilled in the art that the invention can be modified in arrangement and 
detail without departing from such principles. I claim all modifications 
coming within the spirit and scope of the accompanying claims.