SPA APPARATUS
Background Art
This invention relates generally to hot tubs or spas, more particularly to an easy to manufacture, low-cost, lightweight, insulated, semi-rigid plastic spa, which is easily portable.
Conventional hot tubs or spas are bulky, heavy, non-portable, and expensive in their construction; also expensive electrical energy and heat energy is required for their operation. There is need for a greatly improved, easily fabricated and assembled spa structure, with the unusual advantages in construction, modes of operation, use and transport, and results, as are now made possible by the present invention, as will appear.
Disclosure of Invention It is a major object of the invention to provide a greatly improved hot tub or spa, meeting the above needs. Basically, the invention is accomplished by: a) providing a tub side wall having an inner side and an outer side, the tub having an interior to receive liquid, b) and providing a recess inwardly of the outer side of the tub side wall and below the top level of the side wall, to receive at least one of the following elements: i) edge extent of a flexible outer jacket for the side wall, the jacket extending below said recess, ii) edge extent of a shoulder jacket that extends over the top of the side wall, iii) edge extent of a tub top cover. As will appear, the recess is typically provided to extend in looping configuration.
Another object is to provide the side wall to include a cushion above the side recess, the cushion to be covered by the shoulder jacket. The cushion and shoulder jacket typically extend in a loop above the level of the side recess, and retaining means is provided in association with that recess to retain edge extents of one or more of the jackets and top cover flap, in the recess.
Yet another object includes the provision of at least two side wall sections spaced about the tub interior, each wall section incorporating a portion of the side recess, and including the step of assembling the sections to form the side wall and recess extending in looping relation, the sections consisting of synthetic resin. Four of such sections are typically employed to enable ready transport of the tub parts, before assembly, and each of the four quarter-round sections may be interconnected, as by provision of a band looping about the tub wall. Each section may be provided to have greater thickness between its inner and outer sides at each of its opposite ends than at the intermediate portion. A further object includes providing the tub side wall, as for example each of its sections, to include an upright supporting core, and a plate attached to that core and to form therewith fluid ducting space interiorly of the side wall.
Additional objects include the provision of an outer jacket to extend proximate the tub wall outer side, and a layer of padding between that jacket and the outer side of the tub wall, below the level of the side recess; providing the tub wall to include a cushion extending at the top of the tub wall, and wherein the shoulder jacket is located to extend over the cushion; providing a liner to extend proximate the tub wall inner side and connected to said shoulder jacket, that liner extending downwardly toward the tub bottom and then beneath said tub interior; providing a tub bottom wall below the liner to support the liner; and providing a layer of padding between the liner and the tub wall inner side.
These and other objects and advantages of the invention, as well as the details of an illustrative embodiment, will be more fully understood from the following specification and drawings, in which:
Brief Description of Drawings
Fig. 1 is a top plan view of a hot tub or spa incorporating the invention;
Fig. 2 is a side elevation view of the Fig. 1 hot tub or spa;
Fig. 3 is an enlarged vertical, radial section taken through the tub wall, and taken on lines 3-3 of Fig. 1 ;
Fig. 4 is a top plan view of an inner panel as employed in Fig. 3, the tub including four such like quadrant shaped panels;
Fig. 5 is an end elevation taken on lines 5-5 of Fig. 4;
Fig. 6 is a side elevation taken on lines 6-6 of Fig. 4;
Fig. 7 is a section taken in elevation on lines 7-7, through the narrowed intermediate portion of the panel of Fig. 6;
Fig. 8 is an elevation, looking radially outwardly, at the inner side of an outer panel as employed in Fig. 3, the tub including four such like, quadrant shaped outer panels;
Fig. 9 is a vertical section taken on lines 9-9 of Fig. 8;
Fig. 10 is an enlarged, top plan view of the outer panel, taken on lines 10- 10 of Fig. 8; and Fig. 11 is a vertical section through a tub wall, showing a modification.
Detailed Description
In Fig. 1, a tub or spa 10 has a looping, upstanding, self-supporting, lightweight side wall 11. The wall includes an inner panel or panels 12, and an outer panel or panels 13, such panels typically consisting of synthetic resin. Examples are foamed or gas-expanded polystyrene and foamed or gas expanded polypropylene, formed as solid blocks that interfn as for example is shown in Fig. 3. For example, four such quadrant shaped inner panels 12 may be interconnected end-to-end in a loop, and four such substantially quadrant shaped outer panels may be interconnected with the inner panels, respectively, to define the looping tub wall, with looping space or spaces formed as at 14-16. These spaces are adapted to receive ducting, as indicated at 14a- 15a, for flowing water under pressure to jet nozzles 17 that communicate through the inner panels 12 for delivery of aerated water jets to the tub interior 18 bounded by the wall 11. Air is typically supplied via lines 14k-15b_ for mixing at 190 with water as for example was disclosed in U.S. Patents 4,858,254 and 4,843,659, incorporated herein by reference.
Lines 14a and 14b are integrated, as are lines 15a and 15b. Jet orifice plates are shown at 192. Air is supplied to lines 14Jj-15fe from an inlet at a warm air zone 20a in power pack 20 that include a water pump and motor drive, as disclosed in said patents. See Fig. 4. Note that upper and lower outward protrusions 22 and 23 formed by inner panel 12 interfn recesses 24 and 25 formed by panel 13; and inward protrusion 26 formed by panel 13 fits against wall 27 formed by panel 12. Upper and lower surfaces 28 and 29 of panel 13 fit adjacent upper and lower surfaces 30 and 31 of panel 12,
whereby panel 13 is received between upper and lower extents 32 and 33 of support panel 12, a unitary, two-panel, wall section being achieved. The outer side 34 of outer panel 13 may be downwardly tapered, with convexity, as shown.
As appears in Fig. 1, the four quadrant shaped wall sections 35 are alike, and assembled end-to-end, to form a looping, upstanding, self-supporting, tub wall. The end locations of the sections are located at four radial axial planes 36. Preferably, each section 35 is provided to have greater thickness between its inner and outer sides at each of the section opposite ends, indicated at 36a than at the relatively reduced thickness intermediate portion or location shown at 37. Accordingly, four such reduced thickness wall portions appear clockwise at 45°, 135°, 225° and 315° (see planes 38) and the thicker regions are located at 0°, 90°, 180° and 270° (see planes 36). The tub outer boundary is circular, as shown in Fig. 1 and its inner boundary is substantially square, with substantially straight inner sides at 40-43, and rounded corners at 44-47.
The four quadrant-shaped panels 13 have circularly projecting tongues 50 and 51 projecting at their opposite ends, as seen in Fig. 10. Tongues 50 and 51 of circularly successive outer panels have abutting engagement at loci 52, when the outer panels 13 are interlocked or otherwise connected to the inner panels 12, as referred to above. The outer panels therefore are capable of transmitting hoop compressive loading. As seen in Figs. 8 and 9, such loading is effected as by a holding element, such as a fiberglass tape or metallic strap 54 received in lower grooves or channels 54a in the panels 13, i.e. that extend about the central axis 56 of the tub. A similar compressive load exerting holding element 57 may be received in upper channels or grooves 57a formed in the panels 13, to extend about the central axis 56. Tongues 50 and 51 fit in grooves formed by the panels 12 to form an interlock. Panel 13 fits into space 13a formed by panel 12, as seen in Figs. 4 and 5.
A wedge shaped tongue 58 particularly at one end 59 of each inner panel 12 (see Fig. 4) interfϊts a groove 60 at the opposite end 59a of the inner panel, whereby the abutting ends of the quadrant shaped sections 35 are held in face-to-face alignment. Such tongues and grooves may be provided at ducting 62 and 63 formed in the outer panels, to communicate with the jet nozzles 17. Such ducting 62 and 63 is split, as shown in Fig. 4, so that one portion of each of 62 and 63 is carried at one end 59 of a panel 12, and the other portion of each of 62 and 63 is carried or provided at the other end 59a of panel 12. Abutting of the ends 59 and 59a of adjacent panels 12 forms the
ducts 62 and 63. A source of fluid, such as a water pump 20, circulates water under pressure to the ducts for delivery to the jet nozzles in inner panels 13 as referred to. Return ducting 69 from the quadrant shaped section 35, re-circulates water from the tub interior to the pump unit. See for example the pump unit and circulation path, as shown in U.S. Patent Application Serial No. 5,092,951.
Referring to Fig. 3, a resiliently compressible support cushion 82 is provided to seat on the upper extent 32 of the inner panel, as on its upper horizontal surface 32a, and at inclined inner surface 32b, and vertical outer surface 32c.. Cushion 82 provides a comfortable arm rest, or seat for the tub user, as for example during climbing into or out of the tub. The upper surface 82a of the cushion is shown as upwardly convex, in axial radial planes, and it may extend in a complete loop in association with the tub looping upstanding wall 11. The cushion may consist of polyester batting, for example. An inner pad or cushion 84 in the form of a sheet, adjacent the inner side 12a of the panel or panels, extends from its attachment at 85 to the cushion 82, proximate ledge 86, downwardly to the bottom level of the tub. Likewise, an outer pad or cushion 87 extends downwardly in the form of a sheet, adjacent the outer side 13a of the panel or panels 13, from the level of recess 57a to the bottom level of the tub. Such cushions may be bonded to walls 12a and 13a, and may consist of expanded polyethylene foam. They are resiliently compressible. In accordance with an important aspect of the invention, the recess 57a provided inwardly of the outer side of the tub side wall, and below its top level, is figured to receive at least one of the following elements, and preferably all of them: i) edge extent of a flexible outer jacket for the side wall, the jacket extending below said recess, ii) edge extent of a shoulder jacket that extends over the top of the side wall, iii) edge extent of a tub top cover. The outer jacket is shown at 90 in Fig. 3, and extends adjacent or near to the outer side of the tub wall 11. Specifically it is shown as conforming closely to the shape of the outer pad 87, i.e. extending downwardly in a taper, adjacent that pad. The annular jacket 90 preferably consists of a thin sheet of marine grade polyvinyl material or similar protective outdoor fabric. The upper edge extent 90a of the sheet is received in the recess 57a, and a drawstring 90b or other retentive means associated with that
edge extent, may be tightened or tied or otherwise held in position. The lower annular edge extent 904 of the outer jacket may be attached (sewn or high frequency welded) to a bottom sheet 92 protectively underlying the bottom panel or wall 94 of the tub. Accordingly, the jacket 90 has multiple functions; i.e. it protectively covers the outer side of the tub side wall; it retains the tub bottom wall or panel 94 in position as shown; it protectively covers the outer padding 87; and it is retained to the tub via retention at recess 57a as referred to.
In similar manner, the inner liner 95 seen in Fig. 3 extends adjacent or near to the inner side of the tub wall 11. Specifically, it is shown as conforming closely to the shape of the inner pad 84, i.e. extending downwardly and cylindrically, adjacent the pad. The liner 95 preferably consists of a thin sheet of waterproof, flexible polyvinyl material, or similar waterproof, flexible sheet. Upper edge extent 95a of the sheet is attached to the inner lower edge portion 96c of a shoulder jacket 96, forming an annular bead at 97. The lower edge extent 95b of liner sheet 95 meets and is bonded to (RF weld or heat weld) the bottom vinyl sheet 98 protectively (and waterproof) overlying the bottom panel or wall 94 of the tub.
The shoulder jacket 96 is preferably of marine grade (flexible) polyvinyl chloride upholstery material or equivalent, or equivalent outdoor fabric, closely overlies the top cushion 82, conforming to its upwardly convex curvature, as shown. The outer edge extent 96a of the shoulder jacket 96 is also received in the recess 57a, and a drawstring 96b, or other retainer means associated with edge extent 96a may be tightened or tied to hold the edge 96a in position, in the recess. Accordingly, the protective jackets 90, 95 and 96 may be quickly applied to the tub, upon its assembly, and easily retained in a concealed manner to the tub. The flexible edge extent 98a of a top cover 98 for the tub interior may also be received in the recess and retained therein by similar means, or simply tucked in that recess for retention.
From the foregoing, it will be seen that the side wall is of sufficient rigidity, to be self-supporting and able to support a bather's weight, seated on the shoulder jacket. Also, the liner 95, outer jacket and shoulder jacket are typically thin and flexible.
In the modification seen in Fig. 11, a tub side all 150 forms a loop, the wall having inner and outer sides 151 and 152. Upper and lower recesses 153 and 154
are provided inwardly of the outer side of the tub wall and below the top level 150a of that side wall. The upper recess 153 is sized to receive at least one of the following: i) upper edge extent 155a of a flexible outer jacket 155 for the side wall, the jacket extending below said recess, ii) edge extent 156a of a shoulder jacket 156 that extends over the top 157 of the side wall, and iii) edge extent of a tub top cover. See for example cover 98 in Fig. 3. The lower recess 154 is sized to receive at least one of the following: iv) lower edge extent 155b of the flexible outer jacket 155 on the side wall, the jacket extending above that lower recess, and v) edge extent 160a of a bottom jacket 160 for the tub side wall 150 or the tub bottom panel. The tub bottom panel is shown at 166. The side wall 150 may or may not contain ducting (as in Fig. 3) to supply water, or mixed water and air, to the spa interior 162. A cushion is shown at 163, and corresponds to 82 in Fig. 3. The jackets may have the composition as referred to above in association with Fig. 3. See also inner liner 180, corresponding to liner 84.
The method of use includes installing the flexible outer jacket 155 to the outer side of said wall, with jacket edge extents 155a and 155b received in recesses 153 and 154. That jacket may have a selected color, and is easily changed as to an alternate jacket having a different color. The method may also include installing retention means in the recesses to retain the jacket edge extents in the recesses. See for example draw strings 170-172 associated with the jackets. Other retention means may be provided.
The side wall 150 is provided to consist of lightweight synthetic resinous material and to be self-supporting, as in the side wall of Fig. 3.