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Custom CD of patents similar to US4084580 : Combination solar collector and heat exchanger - $19.95 |
| United States Patent | 4084580 |
| Link to this page | http://www.wikipatents.com/4084580.html |
| Inventor(s) | Roark; Charles Frederick (24 Maple La., Brownsburg, IN 46112) |
| Abstract | A solar collector is provided with parallel spaced glass or plastic windows
with a hermetic seal for the space between them, the inner window being
spaced from a collector plate having a heat exchanger plate contiguous
with the back, unlighted side of the collector plate. A pump provides
circulation of absorber fluid in the collector plate and exchanger plate,
while another pump provides circulation of a utilization fluid through the
exchanger plate to the exterior of the assembly. |
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Title Information  |
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Drawing from US Patent 4084580 |
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Combination solar collector and heat exchanger |
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| Publication Date |
April 18, 1978 |
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| Filing Date |
July 28, 1976 |
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Title Information |
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Claims |
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What is claimed is:
1. A solar energy collector/heat exchanger assembly comprising:
a frame;
first and second window panes secured in said frame in parallel spaced
relation and having a dry gas filled and sealed space between them for
thermal insulation betweeen them;
a collector panel secured in said frame under and in parallel spaced
relation to said second window pane and having a first passageway therein
for a working fluid;
a heat exchanger panel secured in said frame in parallel spaced relation to
said collector panel and having a second passageway therein for said
working fluid and a third passageway therein for a utilization fluid;
and means coupling said first and second passageways together to make a
working fluid circuit in said frame whereby heat energy collected in said
working fluid in said collector panel is made available for heat exchange
to said utilization fluid in said heat exchanger panel.
2. The assembly of claim 1 and further comprising:
coupling means at opposite ends of said utilization fluid passageway for
connection to means for utilizing thermal energy collected by said working
fluid.
3. The assembly of claim 1 wherein:
said collector panel and said second window have a dry gas filled and
sealed space between them for thermal insulation between them.
4. The assembly of claim 1 and further comprising:
thermal insulating material in said frame behind said heat exchanger panel
to impede heat transfer from said heat exchanger panel to the environment
of the assembly.
5. The assembly of claim 4 wherein said heat exchanger panel is spaced
behind said collector panel, said assembly further comprising:
thermal insulating material in said space between said collector panel and
said heat exchanger panel to impede heat transfer from said heat exchanger
panel to said collector panel.
6. In solar energy systems including window means for admitting sunlight
and collector means exposed by said window means to the sunlight and
having a working fluid therein, the improvement comprising:
heat exchanger means associated with said collector means for reception of
the working fluid from the collector means for transfer of heat energy
from said working fluid and then return of said working fluid to said
collector means,
said heat exchanger means comprising a utilization fluid passageway for a
utilization fluid whereby heat transferred from said working fluid in said
heat exchanger means is transferred to said utilization fluid,
said collector means including a first panel having a first passageway
therein for said working fluid, and said heat exchanger means including a
second panel spaced from said first panel and having a second passageway
therein for said working fluid, said first and second passageways being
coupled together to provide a working fluid circuit, the improvement
further comprising:
first pump means in the circuit for said working fluid, for pumping said
working fluid through said collector means and said heat exchanger means;
and second pump means coupled to the passageway for the utilization fluid
in said heat exchanger means and operable, when actuated, to pump said
utilization fluid through said heat exchanger means.
7. The improvement of claim 3 wherein: insulation means fills the space
between said first and second panels.
8. The improvement of claim 7 and further comprising:
tubes coupled to said utilization fluid passageway and to a storage tank
remote from said panels to provide a utilization fluid circuit.
9. The improvement of claim 8 wherein:
the utilization fluid storage tank is in a building interior remote from an
exterior environment site of the collector and heat exchanger means.
10. The improvement of claim 8 wherein:
said second pump means is in said utilization fluid circuit.
11. The improvement of claim 10 wherein:
said utilization fluid circuit is filled with a refrigerant.
12. The improvement of claim 10 wherein:
said utilization fluid circuit is filled with distilled water as the
utilization fluid.
13. The improvement of claim 12 wherein:
said working fluid circuit is filled with an energy absorbing working fluid
nonfreezable in the normal exterior environmental site of said window
means. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to solar collectors and heat exchangers,
and more particularly to a combination collector and heat exchanger in a
single panel.
2. Description of the Prior Art
An item of literature showing prior art techniques is submitted herewith
and is entitled "Baseline Solar Collector" apparently published by the PPG
Industries, One Gateway Center, Pittsburgh, Pa. 15222 and bearing on the
cover thereof a number G-483 15M35.
U.S. Pat. disclosing various types of solar energy receivers and/or
utilization devices are as follows:
U.s. pat. No. 2,405,118 -- Delano et al
U.s. pat. No. 2,969,788 -- Newton
3,025,335 -- Ralph
U.s. pat. No. 3,125,091 -- Sleeper
U.s. pat. No. 3,179,105 -- Falbel
U.s. pat. No. 3,194,228 -- Barques
U.s. pat. No. 3,321,012 -- Hervey
U.s. pat. No. 3,391,688 -- Dery
U.s. pat. No. 3,906,927 -- Caplan
U.s. pat. No. 3,923,039 -- Falbel
A problem experienced in the use of conventional collectors has been the
necessity for connecting the usual collector to a heat exchanger in which
the energy absorbing fluid piped from the collector transfers heat energy
to some other fluid for utilization. This has involved an undesirably
large amount of plumbing and pipe fitting, together with the additional
volume of heat absorbing fluid required to fill such plumbing, as well as
the labor and materials in the piping and assembly thereof itself. It also
has involved excessive opportunity for leakage and loss of comparatively
expensive energy absorbing fluid.
SUMMARY
Described briefly, in a typical embodiment of the present invention, the
functions of collection of solar energy and exchange of heat therefrom to
a conventional utilization fluid are combined in a single unit. A
collector member exposed to solar energy is provided with passages for
conveying an energy absorbing fluid therethrough and in the same unit, a
heat exchange member is provided with a passageway for conveying a solar
energy absorbing fluid and a passageway for conveying an energy
utilization fluid. Pumping means can be provided for both fluids.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of a combination solar collector and heat
exchanger incorporating a typical embodiment of the present invention.
FIG. 2 is a fragmentary section therethrough taken as at lines 2--2 in FIG.
1 and viewed in the direction of the arrows.
FIG. 3 is a combination hydraulic and electrical schematic diagram of the
apparatus of FIGS. 1 and 2, and including pumps and a hot water storage
tank.
FIG. 4 is similar to FIG. 2 except that it shows an alternate construction.
DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring now to the drawings in detail, the panel may have a frame 11 with
outer and inner window panes 12 and 13, respectively, with a dead air
space between them at 14 and sealed completely around the perimeter of the
windows by suitable combination spacer and seal members 16. These may be
of a conventional desiccant-type.
The collector plate 17 is similarly spaced from the inner window pane 13
and a desiccant-type seal and spacer 18 are provided between them to seal
the dead air space 19 in the same manner as space 14 is sealed. The
collector plate 17 has therein a serpentine passageway which may be formed
in conventional manner using the Olin-Brass Corporation "Roll Bond"
construction known in the art. Passageway portions in the collector plate
17 are shown at 21, for example. This serpentine passageway is represented
also in FIG. 3.
A heat exchanger plate 22 is secured in the structure under the collector
plate and is spaced therefrom by a spacer 23 around the perimeter thereof.
This also can be a desiccant-type of spacer. The heat exchanger plate has
two serpentine therein, one of them being represented by the passages 24
for the energy absorber fluid which passes into the heat exchanger plate
through a passageway 26 from the collector plate (FIG. 3); and utilization
fluid passageway 27. The passageways 24 and 27 in the heat exchanger plate
can be contiguous with those in the collector plate, if desired. On the
other hand, if the exchanger plate will contain a utilization fluid which
could freeze during certain periods at the installation site, due to low
atmospheric temperatures, the exchanger plate can be spaced and insulated
from the collector plate with glass fiber or other insulating material.
This is shown in FIG. 4 where the extra deep frame and perimeter
insulation are shown at 11' and 23' respectively, and the fill insulation
is 42.
A spacer 28 is provided between the heat exchanger plate and the insulation
cover 29 which is secured to the frame 11 at the rear of the unit and
contains the insulating material 31 which may be of glass fiber or other
suitable type.
As shown in FIG. 3, the absorber fluid (sometimes referred to as "working
fluid" or "heat transfer fluid") is contained in a complete circuit
("primary loop") from the collector plate passageway 21 through the
connection 26 to the exchanger plate passageway 24 and then back through
tubing 32 and pump 33 to the collector plate. Similarly, the utilization
fluid passageway ("utilization fluid loop") is from the exchanger plate
passageway 27 through tubing 34 to a storage tank 36 and back from the
storage tank through tube 37 to the pump 38. These pumps may be wired in
parallel to a temperature sensor switch 39 supplied by electrical energy
from a 110 or 220 volt supply, for example, at inputs 41. The storage tank
is shown in a building (shown on a much reduced scale for convenience in
drawing) at a location remote from the exterior sunlit environment where
the collector/heat exchanger will be located and oriented, for example, to
sunlight.
The windows may be of glass or plastic. The collector and heat exchanger
plates are preferably made of copper, and a suitable black coating can be
applied to increase the absorber capability on the lighted face of the
collector plate. 17. The absorber fluid may be distilled water or a
mixture of distilled water and ethylene glycol, where freezing
temperatures are anticipated. Another absorber fluid which is suitable is
known as a "Dowtherm J" material as furnished by the Dow Chemical Co. The
utilization fluid may be water or a mixture of water with ethylene glycol
or other antifreeze. These are examples, and other materials might also be
used. It is possible that in some instances, one or both pumps may be
eliminated, if one can rely on convection currents in the passageways to
provide the desired circulation. Otherwise a sensor 39 located on the
collector plate and responsive to a temperature over a predetermined level
can be employed to energize the pumps when circulation of heated absorber
medium from the collector plate through the heat exchanger plate is
appropriate. The utilization fluid stored in tank 36 can be used for a
variety of purposes, such as space heating, for heat transfer to other
devices, hot water utilization for processing, or for other purposes. If
hot water is utilized directly out of the storage tank 36 for processing,
cooking, etc., a make-up water source should be provided.
Although the collector and heat exchanger plates of the "Roll Bond" brand
may be used, those from other manufacturers and using other manufacturing
techniques might also be used. In addition, the particular type of heat
exchanger disclosed herein might also be used to perform refrigeration
with a utilization fluid. For example, the plate having the single
serpentine passageway therein could be used for "Dowtherm J" and the heat
exchanger plate used for circulating "Dowtherm J" and a refrigerant
separately through the separate passageways therein. Ammonia or some other
suitable refrigerant might be used in the utilization fluid loop.
While the invention has been illustrated and described in detail in the
drawings and foregoing description, the same is to be considered as
illustrative and not restrictive in character, it being understood that
only the preferred embodiment has been shown and described and that all
changes and modifications that come within the spirit of the invention are
desired to be protected.
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