Bathing device

A bathing device includes a housing in which is rotatably mounted a shaft with one end of the shaft supporting a scrubbing brush; gearing means are provided within the housing to transmit rotary motion from a water turbine to the brush; the blades of the water turbine are curved and each are provided with a peripheral recess or opening to reduce pressure buildup and turbulence; water is provided to the turbine from a Y-connection from a source under pressure.

BACKGROUND AND BRIEF DESCRIPTION OF THE INVENTION 
The present invention relates to bathing devices of the type used to 
massage and wash the back portion of an individual and which does not 
require electrical power for its operation. 
As is well known, since it is difficult for individuals to reach all the 
portions of their back, this portion of the human body is often left 
unscrubbed which can be very detrimental to an individual's health where 
one works in a congested or dirty environment. In addition, for many 
people, the massaging of the back during a shower or a bath is very 
beneficial particularly where the person is suffering from muscle tension, 
back injuries or the like. 
A large number of back scrubbing device have been proposed in the prior art 
but none, to my knowledge, have been successfully marketed to the public. 
Among the reasons for this deficiency is the fact that in some of the 
prior art devices, electrical power was required to provide rotary motion 
to the scrubbing brush. Such a requirement not only renders the 
installation of the brush mechanism expensive but also is very 
inconvenient to maintain in a safety condition. In other types of back 
scrubbers, manual operation of the brush has been relied upon but this is 
clearly unsatisfactory where the person utilizing the brush is an invalid 
or is recovering from an illness or injury. 
In still other arrangements, such as those disclosed in U.S. Pat. Nos. 
2,068,757 of June 26, 1937; 
3,042,949 of July 10, 1962; 
3,085,269 of Apr. 16, 1963; and 
3,768,462 of Oct. 30, 1973; 
Water under pressure has been employed to power the brush or scrubbing 
devices. While such arrangements have been useful in that they have 
overcome the disadvantages of using either electrical or manual power to 
effect the scrubbing action, such devices have still been extremely 
expensive to manufacture and complicated to install on the one hand, or, 
on the other, appear to be unable to provide adequate scrubbing action to 
the user as a result of inefficient utilization of the water pressure 
available. 
The present invention provides a back scrubbing device which overcomes the 
foregoing disadvantages and provides a back scrubbing device that can be 
inexpensively manufactured but which will reliably operate to provide 
sufficient scrubbing action to a user without resorting to complicated 
valving or plumbing connections and which can use ordinary tap pressure as 
the power source. 
In a preferred embodiment, the apparatus of the present invention includes 
a housing which can be movably mounted on a wall of a bathing enclosure. A 
separate compartment of the housing encloses a turbine device which 
consists of a wheel having a plurality of radially extending blades. The 
blades are concavely shaped on one side and, at their free ends, are each 
formed with an opening to permit the passage of water past the blades so 
that, in operation, at least a portion of the fluid stream impinging on 
the turbine blades will pass through an immediately facing blade to 
thereby reduce pressure and turbulence and increase the force of the 
liquid striking the next succeeding blade mounted on the wheel. The 
turbine housing also includes a fluid outlet to minimize, if not 
eliminate, undesirable splashing of the water used to power the turbine. 
Fluid outlets are provided in the housing to assure that water is provided 
to the gear mechanism that rotates the brush as well as for providing 
liquid to the face of the brush to maintain the bristles or scrubbing 
portion thereof in a moist and softened condition. The meshing surfaces of 
the gears may be lubricated by the addition of a detergent to the interior 
of the housing. Of particular importance is the fact that the velocity of 
rotation of the brush can be easily adjusted by virtue of the fact that 
the turbine axle is connected to a drive gear which has a much smaller 
diameter than the gear connected to the axle of the brush which latter 
gear is substantially of the same diameter as the brush. With this 
arrangement, a very firm scrubbing action will be achieved without 
rotating the brush surfaces at an undesirably high speed. 
The foregoing and other advantages will become apparent as consideration is 
given to the following detailed description taken in conjunction with the 
accompanying drawings, in which:

DETAILED DESCRIPTION OF THE INVENTION 
Referring now to the drawings, wherein like numerals designate 
corresponding parts throughout the several figures, there is shown in FIG. 
1, one installation of the brush massaging apparatus 10 of the present 
invention. The apparatus 10 generally consists of a brush 12 which is 
rotatably mounted in a housing 14 which, in turn, is adjustably mounted on 
a rod 16 which has its ends secured to the wall of a bathing enclosure in 
any suitable manner. The housing 14 is supplied with water through a 
flexible tube 18 which has one end connected to the housing and its other 
end connected to one branch of a Y-connector 20. The other branch of the 
Y-connector 20 is provided with a conventional shower head 22 and flow 
through each of the branches may be controlled by manual valves 24. 
Turning now to FIG. 2, a turbine housing 26 is secured by bolts to the rear 
wall 28 of housing 14 which is provided on its interior with a gear 
chamber 34. Extending through gear chamber 34 is a turbine axle 30 which 
has one end mounted in a bore 32 formed in the turbine housing 26 with the 
other end of the axle 30 mounted in a bore 36 formed on the interior wall 
of the gear chamber 34. Rear wall 28 has a plurality of apertures 38 
disposed as illustrated to provide flow communication between the interior 
of the turbine housing 26 and the gear chamber 34. 
Fixedly mounted on the axle 30 in the turbine housing 26 is a turbine 40. 
In gear chamber 34, there is a small diameter tooth gear 42 fixedly 
mounted on turbine axle 30 whereby, when the turbine 40 is rotated, the 
small tooth gear 42 will also be rotated in the same direction. A large 
diameter tooth gear 44 is fixedly mounted by a keying connection 46 on a 
rotatable shaft 48. Shaft 48 has one end disposed in a bore 50 formed in 
the rear wall 28 of housing 14 and its other end extends through a bore 52 
formed through the front face of housing 14. Adjacent the rear end of 
shaft 48 is a peripheral recess into which is projected an adjustable pin 
56 to retain the shaft 48 in a fixed position relative to the inner walls 
of the gear chamber 34 whereby the teeth of the gears 42 and 44 may be 
maintained in alignment. 
Mounted on a reduced diameter portion of the opposite end of the shaft 48 
is a brush plate 58 which is held in position by a threaded screw 60 which 
can be easily disengaged to permit removal of the brush plate 58 for 
cleaning or substitution of another type of brush, if desired. On the face 
of brush plate 58 are a plurality of bristles 62 which, preferably, are 
the soft type and which may be of synthetic material, such as nylon. About 
the periphery of the brush plate 58 are a plurality of apertures or bores 
64 (FIG. 4) which serve to permit the passage of liquid received from 
bores 66 which extend through the front face of housing 14. Thus, when 
liquid from a source enters the gear chamber 34 as a result of the 
operation of the turbine, any liquid accumulating in the chamber 34 will 
eventually flow out through bores 66 and 64 to wet the bristles 62 of the 
brush. At the base of the gear chamber 34, a drain hole 68 is provided 
which may be closed by a plug 70 (FIG. 3). 
At the top of the housing 14 an inlet 72 is provided to permit the addition 
of a liquid detergent or the like to the gear housing 34. The detergent 
will act as a lubricant for the gears 42 and 44 as well as for the 
rotation of the shaft 48 in its mountings in the front wall of the housing 
14 and the bore 50 in the rear wall 28. 
Bolted or otherwise conventionally secured to the rear wall 28 adjacent the 
top of the housing 14 is a gripping bracket 74 which has at its outer end 
a pair of aligned bores 76 for receiving a threaded bolt 78 which will 
tighten the two arms of the bracket 74 on rod 16 to hold the housing 14 in 
a desired position on rod 16. To stabilize the housing, a recess 80 is 
provided on the rear end of the turbine housing 26 to engage and rest upon 
the rod 16. 
Turning now to FIG. 3, it will be seen that the flexible tube 18 is 
connected to a channel 82 which will deliver liquid tangentially to the 
turbine chamber 86. The turbine chamber 86 has a peripheral wall 84 which 
is circular and has an interior diameter just slightly larger than the 
radial extent of the turbine blades 88. The inner ends of each of the 
blades 88 may be rigidly secured to extend radially from a cylindrical 
base member 89 which is fixed on turbine axle 30. As can be seen from a 
consideration of FIGS. 2 and 3, the turbine chamber is cylindrical in 
shape and is almost fully occupied by the turbine 40 except for clearances 
required for smooth operation of the turbine. 
For smooth operation of the brush, it is important that the turbine 40 have 
a larger overall diameter than the intermediate tooth gear 42 and yet be 
smaller than the diameter of the large tooth gear 44. Also, to insure 
smooth but firm scrubbing action, each of the blades 88 is concavely 
curved as at 90 to receive the water projected into the turbine chamber 86 
from the tangential channel 82. In addition, an opening 92 is centrally 
located between the side edges of each of the blades 88 along the outer 
peripheral edge 94 thereof. Closely adjacent the water inlet 95 is the 
water exhaust outlet 96 in the turbine housing 26. With this arrangement, 
the accumulation of pressure and turbulence between the blades is 
minimized thereby assuring smooth transfer of the water's momentum to the 
turbine 40. Further, it should be noted that the exhaust outlet 96 is 
downwardly directed to minimize splattering of the water out of the tub. 
The provision of the openings 92 at the peripheral end of each of the 
blades 88 also functions to increase the time interval each of the blades 
88 is exposed to the force of the water since the water passing through 
each of the openings 92 will impact against a preceding blade at least 
until the blade passes over the exhaust outlet 96. 
In FIG. 4, the distribution of the water hole 64 in the brush plate 58 is 
illustrated. It will be apparent, however, that other distributions of the 
holes 64 may be utilized. 
In FIG. 6, an alternate scrubbing device is shown and which includes a 
circular sponge 98. The back surface of the sponge 98 is covered with a 
thick adhesive layer 100 which is pressed into the dovetail slots 102 
formed in the face of the brush plate 58'. When the adhesive hardens, it 
forms a secure bond over the entire surface of the sponge 98 with the face 
of the brush plate 58' as the adhesive is pressed into the dovetail slots 
102 to fill the slots to form a secure anchor. A number of adhesive 
substances are commercially available for this purpose. 
Preferably, the elements of the housing, gears, turbine and mounting 
bracket should all be made of a high impact plastic material and the 
entire device can be manufactured without any metal parts, if desired, and 
yet will provide a firm and smooth massaging and scrubbing action without 
resort to the use of electrical power or manual manipulation. 
Having described the invention, it will be apparent to those skilled in 
this art that various modifications may be made therein without departing 
from the spirit and scope of this invention as defined in the appended 
claims.