 |
Claims  |
|
|
I claim:
1. In a hydrotherapy apparatus having a tub for containing a supply of
heated water, a water pump for recirculating the heated water supply to
and from the tub, a water pump motor for operating said water pump, and
means for mixing ambient air into the heating water for air agitation
thereof, the mixing means including a confined passage having a terminus
in said means including a confined passage having a temperature tending to
cool the heated water, the improvement comprising
said water pump motor including a fan coupled to be driven by said water
pump motor when it operates said water pump, said fan including an outlet
adapted to be connected to said means for mixing ambient air with water
from said water pump,
said fan having as its inlet for ambient air a confined passage in thermal
transfer relationship with said water pump motor whereby the heat
generated by said water pump motor is introduced into the air moved by
said fan past said water pump motor prior to mixing with water from said
water pump.
2. The hydrotherapy apparatus according to claim 1 in which said confined
passage has a locally relatively reduced cross-section defining a
convection heating zone for air, said water pump motor at least partially
defining said reduced passage cross-section.
3. The hydrotherapy apparatus according to claim 1 in which said confined
passage comprises a wall in closely spaced relation with said water pump
motor, said wall and water pump motor defining a convection heating zone
therebetween.
4. The hydrotherapy apparatus according to claim 1, including also air
compression means driven by said water pump motor within said confined
passage for increasing the pressure of said ambient air above ambient
pressure in advance of mixing with water from said water pump for improved
air agitation of the water as it is introduced into the tub.
5. The hydrotherapy apparatus according to claim 1, further comprising air
compression means between said water pump motor and said confined passage
terminus, said air compression means comprising a compression turbine
driven by said water pump motor and configured to increase the pressure of
the air above ambient and urge the air toward said passage terminus.
6. The hydrotherapy apparatus according to claim 5 in which said water
pump, said fan, and said compression turbine are driven by a common shaft
of said water pump motor.
7. The hydrotherapy apparatus according to claim 1 in which said confined
passage comprises a wall in closely spaced relation with said water pump
motor, said wall and water pump motor defining a convection heating zone
therebetween.
8. The hydrotherapy apparatus according to claim 7 in which said convection
heating zone is generally annular and defined by said passage wall
surrounding said water pump motor.
9. The hydrotherapy apparatus according to claim 8 including also within
said passage, air compression means at the downstream side of said water
pump motor after said convection heating zone, said air compression means
comprising a turbine compressor for increasing the pressure of the air
above ambient in advance of mixing air with the pumper water at said
passage terminus for improved air agitation of said water.
10. The hydrotherapy apparatus in accordance with claim 1 in which said
water pump and fan are mounted on a common shaft and in which said fan is
located at one end of said water pump motor and the air inlet for said fan
is at the opposite end of said water pump motor in which the operation of
said water pump motor provides simultaneous pumping of water, heating and
blowing of ambient air.
11. The hydrotherapy apparatus in accordance with claim 1 including a
housing for said water pump motor including at least one opening at one
end of said water pump motor and in which said confined passage includes
the space between said water pump motor and its enclosing housing and said
housing is operative to confine ambient air near the water pump motor to
allow heat exchange heating of said ambient air.
12. The hydrotherapy apparatus in accordance with claim 1 in which said
water pump motor has a single shaft, said fan is located adjacent to an
air inlet for said water pump motor and coupled to said motor shaft at one
end thereof;
a compressor stage is coupled to the motor shaft at the opposite end
thereof and said water pump is coupled to said opposite end of said motor
shaft;
whereby two stage movement of air, heating of the air, plus pumping of
water is achieved in a single apparatus.
13. The hydrotherapy apparatus in accordance with claim 12, further
comprising mixing means coupled to the output of said compressor stage for
introducing air therefrom into water pumped by said water pump.
14. The hydrotherapy apparatus according to claim 1 in which said confined
passage has a locally relatively reduced cross-section defining a
convection heating zone for said air, said water pump motor at least
partially defining said reduced passage cross-section.
15. A hydrotherapy apparatus comprising a water pump and water pump motor
therefor, a heated water supply to be circulated by said water pump and
water pump motor to and from a hydrotherapy tub, an air supply to be mixed
with the water in agitating relation, and an air preheater comprising a
wall defining an air supply passage, said wall enclosing said water pump
motor for convection heating of said air supply within said passage in
advance of mixing of the air with the water.
16. The hydrotherapy apparatus according to claim 15, further comprising
air displacement means for urging air through said air supply passage in
convection heating relation with said water pump motor.
17. The hydrotherapy apparatus of claim 16, wherein the water pump motor
includes a rotatable shaft coupled to the water pump to drive the water
pump, and the air displacement means including a fan coupled to the shaft
to blow air in the air supply passage toward the water pump motor for
convection heating in response to rotation of the shaft by the water pump
motor.
18. A method of operating a hydrotherapy apparatus, the method comprising
the steps of circulating heated water to and from a hydrotherapy tub with
a motor driven water pump, mixing ambient agitating air into said water,
and preheating said ambient agitating air by passing said air through a
restricted passage across said water pump motor in heat exchange relation
therewith before mixing with the water.
19. The method according to claim 18, further comprising the step of
maintaining a pressure differential across said water pump motor to effect
air flow thereacross in heat exchange relationship therewith.
20. In hydrotherapy apparatus having a tub for containing a supply of
heated water, a water pump for recirculating the heated water supply to
and from the tub, a water pump for operating said water pump, and means
for mixing ambient air into the heating water for air agitation thereof,
the mixing means including a confined passage having a terminus in said
water, the ambient air normally being of a temperature tending to cool the
heated water, the improvement comprising:
said water pump motor including a fan coupled to be driven by said motor
when it operates said water pump, said fan including an outlet adapted to
be connected to said means for mixing ambient air with water from said
water pump;
said fan having as its inlet for ambient air a confined passage extending
along the length of said motor in thermal relationship with said water
pump motor whereby the heat generated by said water pump motor is
introduced into the air moved by said fan past said water pump motor prior
to mixing with water from said water pump;
wherein said confined passage around said motor includes a perforated
baffle between said motor and the air outlet;
whereby substantially all air for said tub passes longitudinally along said
motor and through said baffle.
21. In hydrotherapy apparatus having a tub for containing a supply of
heated water, a water pump for recirculating the heated water supply to
and from the tub, a water pump motor for operating said water pump, and
means for mixing ambient air into the heating water for air agitation
thereof, the mixing means including a confined passage having a terminus
in the water, the ambient air normally being of a temperature tending to
cool the heated water, the improvement comprising:
said water pump motor including a fan coupled to be driven by said motor
when it operates said water pump, said fan including an outlet adapted to
be connected to said means for mixing ambient air with water from said
water pump;
said fan having as its inlet for ambient air a confined passage extending
along the length of said motor in thermal relationship with said water
pump motor whereby the heat generated by said water pump motor is
introduced into the air moved by said fan past said water pump motor prior
to mixing with water from said water pump;
wherein said water pump, fan and motor are contained in a single housing
having an air inlet at one end thereof; and
wherein said confined passage around said motor includes a perforated
baffle between said motor and the air outlet;
wherein substantially all air for said tub passes longitudinally along said
motor and through said baffle; and
includes a second baffle separating said motor and air outlet from said
pump. |
|
 |
|
 |
Claims |
|
|
|
Description |
|
|
This invention has to do with hydrotherapy apparatus and more particularly
with hydrotherapy apparatus in which heated water is recirculated to and
from a tub and mixed with ambient air for agitation of the water. Such
ambient air is typically cooler than the heated water and tends to cool
the water and reduce the benefits of the hydrotherapy. The present
invention uses available heat sources to preheat the ambient air before
mixing with the recirculating water.
TECHNICAL BACKGROUND
Hydrotherapy involves circulating heated water around the body, optimally
while air agitating the water for added massaging action. The use of cool,
ambient air, however, cools the heated water and reduces the hydrotherapy
benefits. In smaller installations such as in the home, a separate heater
may not be provided for the water beyond the heat afforded by the
household hot water heater, and therapy tubs in such circumstances are
difficult to keep at adequate temperatures. The use of continuously
running fresh hot water to maintain heat in the therapy tub is wasteful of
energy and unduly expensive.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a hydrotherapy
apparatus in which heat is maintained by the use of a low, or no,
increased cost source: the motor of the water pump. It is another object
to provide a method and apparatus for hydrotherapy in which the ambient
air is preheated before mixing with the recirculating water by convection
against the pump motor. It is a further object to run pump motors cooler
and/or at higher outputs for a given capacity motor by more efficiently
cooling such motors by convection against ambient air being positively
displaced over the motor surface for preheating of the air. Other objects
will appear hereinafter.
These and other objects of the invention are realized in hydrotherapy
apparatus having a tub for containing a supply of heated water, a water
pump for recirculating the heated water supply to and from the tub, a
motor for operating the pump, and means to mix ambient air into the water
for air agitation thereof, the mixing means including a confined passage
having a terminus in the water, the ambient air normally being of a
temperature tending to cool the heated water, by the provision of the
improvement comprising the water pump motor and confined passage being
relatively arranged for convection heating of confined air by the heat of
operation of the motor for preheating the air confined within the passage
before mixing thereof with the heated water supply.
In particular embodiments of the hydrotherapy apparatus of the invention:
the water supply is carried in piping beyond the tub, and the apparatus
includes also an outlet into the piping, the outlet defining the confined
passage terminus for mixing the air with the water in agitating relation;
the water piping defines a venturi structure at the air outlet for drawing
the air into the water supply; there is included also positive
displacement means within the passage for urging ambient air through the
passage in confined relation; there is included also air compression means
within the passage for increasing the pressure of the air above ambient in
advance of mixing air with the water for improved air agitation of the
water; and the confined passage has a locally relatively reduced
cross-section defining a convection heating zone for the air, the motor at
least partially defining the reduced passage cross-section.
In a preferred embodiment, the confined passage comprises a wall in closely
spaced relation with the motor, the wall and motor defining a convection
heating zone therebetween; there is included also fan means driven by the
motor for positively displacing ambient air through the convection heating
zone, the fan means blowing ambient air across the motor within the
convection zone toward the passage terminus; and there is also included an
air compression means between the motor and the passage terminus, the
compression means comprising a turbine driven by the motor and adapted to
increase the pressure of the air above ambient and urge the air toward the
passage terminus.
In particularly preferred embodiments: the convection heating zone is
generally annular and defined by the passage wall surrounding the motor;
the water supply is carried in piping beyond the tub, and included also is
an outlet into the piping, the outlet defining the confined passage
terminus for mixing the air with the water in agitating relation; the
water piping defines a venturi structure at the air outlet for drawing the
air into the water supply; included also within the passage is positive
displacement means at the upstream side of the motor before the convection
heating zone, the displacement means comprising a fan driven by the motor
for urging ambient air through the passage in confined relation; included
also within the passage is air compression means at the downstream side of
the motor after the convection heating zone, the compression means
comprising a turbine compressor for increasing the pressure of the air
above ambient in advance of mixing air with the water at the outlet for
improved air agitation of the water; and the pump, the fan and the
compression turbine are driven by a common shaft of the motor.
In another embodiment the invention provides a hydrotherapy apparatus
comprising a pump and motor therefor, a heated water supply to be
circulated by the pump and motor to and from a hydrotherapy tub, an air
supply to be mixed with the water in agitating relation, and an air
preheater comprising a wall defining an air supply passage, the wall
enclosing the motor for convection heating of the air supply within the
passage in advance of mixing the air with the water. In this and like
embodiments there is also provided air displacement means urging the air
through the passage in convection heating relation.
The invention further contemplates a method of operating a hydrotherapy
apparatus including circulating heated water to and from a hydrotherapy
tub with a motor driven pump, mixing agitating air into the water, and
preheating the air by passing the air across the motor in convection
heating relation before mixing with the water, as by maintaining a
pressure differential across the motor to effect air flow thereacross.
THE DRAWING
The invention will be further described as to an illustrative embodiment in
conjunction with the attached drawings in which:
FIG. 1 is a schematic view of the hydrotherapy apparatus of the invention;
FIG. 2 is a view in vertical section of the air preheating apparatus;
FIGS. 3, 4 and 5 are respectively, top plan, side elevation and end
elevation views of the hydrotherapy apparatus.
FIG. 6 is a view in vertical section of an alternate embodiment of the air
preheating apparatus;
FIG. 7 is a fragmentary view of the venturi structure;
FIG. 8 is a view taken on line 8--8 in FIG. 7;
FIG. 9 is a fragmentary view partly of vertical section of an alternate
motor and confined passage arrangement.
PREFERRED MODE
With reference now to the drawing in detail, in FIGS. 1, 3, 4 and 5 the
hydrotherapy apparatus 1 comprises tub 10 which stands on feet 12 and has
encircling water feed piping 14 communicating the pump 16 with
circumferentially spaced outlets 14a into the tub interior 10a. Return
piping 20 drains the water from the tub interior 10a for return to the
pump 16. The pump 16 is elevated onto a pedestal 19 of FIGS. 4 and 5 and
the feed and return piping 14, 20 sloped thereby to ensure reverse flow
into the tub interior 10a when the apparatus is shut down, for draining
through water waste line 22 of FIGS. 3 and 4. In use, the tub 10 is filled
with heated water, the pump 16 recirculates the heated water to the tub
via feed piping 14 and outlets 14a while simultaneously drawing water from
the tub via return piping 20. Filter and supplemental heating means can be
provided in the apparatus but are not shown.
In addition to the pump 16, an air supply means, generally indicated at 24,
is provided for the purpose of sparging air into the recirculating water,
the water being thus agitated and of increased therapeutic action thereby.
The air supply means 24 delivers ambient air into the recirculating water.
If, as is the likely case, the ambient air is lower in temperature than
the heated water, the water is cooled as the air is entrained into it,
until the water temperature becomes to cool to be comfortable. While this
condition can be overcome by the use of supplemental heating, or the
addition, even continuously, of additional heated water to the tub, such
expedients are energy wasteful and far less efficient and desirable than
the solution taught herein which uses heat, otherwise wasted, to preheat
air for mixing with the recirculating water.
With reference to FIGS. 1-5, the present invention provides means for
preheating ambient air before mixing it with the recirculating heated
water. As shown in FIG. 1, a centrifugal pump 16 having an impeller 32
mounted on shaft 34 driven by motor 36 displaces water entering the pump
16 at 38 from piping 20 into feed piping 14 for recirculation to the tub
10. Air is preheated by the preheating apparatus shown at 24 to be
described in detail hereinafter, and passed to the recirculating water via
piping 18.
The recirculating water is mixed with preheated air typically at an inlet
venturi mixer and nozzle 51 which couples water feed piping 14 with
preheated air feed piping 18 adjacent the piping outlets 14a. See also
FIGS. 7 and 8. The air preheating is effected by passing the ambient air
through a confined passage 42 defined by cylindrical wall 44 and over the
motor 36 shown positioning in the passage 42 such that an annular
convection heating zone 46 is created around the motor. A fan 48 suitably
also driven by shaft 34 may be used to force the air across the motor 36
in greater volume. Low fan speeds and volume will be used because the air
needs to pick up heat by convection as it traverses the motor 36. A second
fan stage 50 may be used to slightly compress the air for added
embullience in the tub, increased heat, or to increase air flow.
Alternatively the second fan stage may be omitted as shown in FIG. 6. In
either case, the preheated air enters plenum 58 and then exits the
preheating apparatus 24 at outlet 58a and traverses the feed piping 18 to
the venturi structure 51 wherein it is mixed with the feed water in piping
14 adjacent the outlet 14a, see FIG. 8 in particular.
It is preferred to use a venturi structure 51 having a nozzle arrangement
such as shown in FIGS. 7 and 8 for improved mixing of the air and water,
and to induce air flow into the water by creating a localized low pressure
zone adjacent the air supply. In this regard, the venturi structure 51
typically comprises a unitary plastic molded part having an internally
threaded outlet opening 14a into which a complementary nut (not shown) is
threaded to secure the structure to the wall of the tub 10. Upstream of
the outlet opening 14a the structure 51 defines an upper coupling 41 which
openly communicates with air feed piping 18, a lower coupling 43 which
opening communicates with water feed piping 14, a venturi passage 45
closed by plug 45a at one end and communicating the upper coupling opening
41a with the outlet opening 14a, and a venturi nozzle 47 communicating the
lower coupling opening 43a with the outlet 14a, concentrically with the
lower terminus of the venturi passage such that water jetted through the
venturi nozzle 47 draws the preheated air through the surrounding annulus
49 from air feed piping 18. The venturi structure 51 thus defines the
terminus of the confined passage 42. The resulting mixing of water and air
agitates the water as it enters the tub 10.
One embodiment of the air preheater apparatus according to the invention is
shown in detail in FIG. 2. There, shaft 34 extends centrally through the
apparatus journaled in ball bearings 60, 62 in opposed vertical walls 66,
68 of the motor casing 64. Casing 64 is typically conventional and
comprises in addition to the vertical walls 66, 68, a cylindrical wall 70
corresponding to the wall 44 in FIG. 1, the wall arrangement having
circularly spaced ports 72 for inlet of ambient air as shown. Fan 48 is
fixed to the shaft 34 with suitable gearing (not shown) as necessary for
the purpose of urging air through an annular zone 46 defined by the wall
70 and the stator 35 of the motor 36 and though the gap 37 between the
motor stator 35 and rotor 39, as shown by the arrows. Thus arranged, the
zone 46 is a convection heating zone within which air is transitorily
confined for heating with the heat given off by the motor 36. It may be
noted here that a by-product of the air preheating is to increase the
cooling effect around the motor 36 which enables running the motor at
higher speeds and/or loads than would be typical for a given motor and to
increase motor life.
The air past the motor 36, now preheated, e.g. to about 100 degrees F. plus
or minus 10 or 20 degrees as desired, is displaced to the second stage
compressor 50. The second stage compressor 50 is optional (cf. FIG. 6) bit
if used typically will increase air pressure slightly above atmospheric
and comprises one or more turbine blade stages 52, 54 within housing 56
and which are suitably rotatably driven by the common shaft 34 and located
beyond the motor casing 64. A plenum 58 beyond the housing 56 receives the
now preheated, compressed air and delivers the same to plenum outlet 58a
which meets the air feed piping 14 which communicates the air to
respective venturi structures 51.
Shaft journal 80 extending centrally within plenum 58 supports the shaft 34
adjacent the impeller 32. Return piping 20 empties into the eye 82 of the
impeller 32 and the impeller drives the water centrifugally out of outlet
84 into water feed piping 14.
With reference now to FIG. 6, where like parts have like numerals plus 100,
shaft 134 extends centrally through the apparatus journaled in ball
bearing bearings 160, 162 in opposed walls 166, 168, and there is a a
cylindrical wall 170, the wall arrangement having circularly spaced ports
172 for inlet of ambient air as shown. Fan 148 is fixed to the shaft 134
for the purpose of urging air through an annular zone 146 defined by the
wall 70 and the stator 135 of the motor 136 and through the gap 137
between the motor stator 135 and rotor 139, as shown by the arrows. Thus
arranged, the zone 146 is a convection heating zone within which air is
transitorily confined for heating with the heat given off by motor 136,
with the same effects as obtained in the FIG. 2 embodiment.
The air past motor 136, preheated as in the FIG. 2 embodiment, is passed
directly to the tube with a second fan stage. Accordingly, the heated air
enters plenum 158 directly from the convection heating zone 146 whence it
is passed to plenum outlet 159a and the air feed piping 18 therebeyond to
the venturi structure 51. Impeller 132 operation is as in the FIG. 2
embodiment.
With reference now to FIG. 9, wherein like parts to FIG. 2 have the same
numbers plus 200, motor 236 is totally enclosed by casing 264, the casing
having circularly distributed longitudinal vanes 290 which serve as heat
sinks for the motor within the casing. The motor 236 is enclosed by wall
270 having inlet ports 272 and outlet port 258 surrounding shaft 234. Fan
238 urges air along and across the vanes 290 to outlet 258 where it is
captured by means not shown for delivery to the air feed piping 18.
In operation, the pump 36 is turned on after the tub 10 is filled with
heated water, and the tub water circulates through the piping 14, 20. The
operation of the pump drives the fan 48 and compressor 52 whereby air
entering the casing 64 at ports 72 is confined by wall 70 into the annular
convection heating zone 46 surrounding the motor and is thereby preheated.
The air exits into the recirculating water at venturi structure 51 and is
mixed with the water thereby.
Accordingly the foregoing objects of the invention have been met: to
provide a hydrotherapy apparatus in which heat is maintained by the use of
a low or no increased cost source, i.e. the motor of the water pump
whereby ambient air is preheated before mixing with the recirculating
water by convection against the pump motor.
The above described embodiments are merely representative of apparatus
embodying the concept of this invention and are not to be considered as
limiting. It is recognized that one skilled in the art may make changes in
details or structure without departing from the spirit of this invention.
The scope of this invention is defined not by the specific embodiments
disclosed but by the following claims including their equivalents.
* * * * *
|
|
|
|
|
|
|
Description |
|
