US2182174A - Air conditioning system - Google Patents
Air conditioning system Download PDFInfo
- Publication number
- US2182174A US2182174A US207953A US20795338A US2182174A US 2182174 A US2182174 A US 2182174A US 207953 A US207953 A US 207953A US 20795338 A US20795338 A US 20795338A US 2182174 A US2182174 A US 2182174A
- Authority
- US
- United States
- Prior art keywords
- water
- sump
- air
- valve
- washer
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61D—BODY DETAILS OR KINDS OF RAILWAY VEHICLES
- B61D27/00—Heating, cooling, ventilating, or air-conditioning
- B61D27/0018—Air-conditioning means, i.e. combining at least two of the following ways of treating or supplying air, namely heating, cooling or ventilating
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S261/00—Gas and liquid contact apparatus
- Y10S261/34—Automatic humidity regulation
Definitions
- This invention relates to air conditioning systems and relates more particularly to air washer systems for passenger vehicles.
- This invention provides an improved air washer system for passenger vehicles such, for example, as railway passenger cars, particularly suitable for operation in evaporative cooling, and in refrigerative cooling cycles.
- Evaporative cooling may be employed when the Wet Bulb temperature is below say, 64 F., with great savings in refrigeration.
- Afeature of this invention resides in providing in an air washer system, two pumps with their rotors preferably mounted on a single shaft, one
- An object of the invention is to provide an improved air washer system.
- Another object of the invention is' to provide an improved evaporative cooling system for pasg5 senger vehicles.
- Another object of the invention is to provide an improved air washer system for passenger vehicles-which is particularly suitable for operation in evaporative cooling and in refrigerative cooling cycles.
- Fig. 1 is a diagrammatic view of one embodiment of an air conditioning system according to this invention.
- Fig. 2 is a diagrammatic view of the water sup- I ply section of another embodiment of an air conditioning system according to this invention.
- the blowers 5 and air washer 6 are mounted in one end and in the roof zone of a railway passenger car I.
- the blowers 5 drawfresh, outdoor air through the vestibule grille 8, and recirculated air through the grille 9.
- the dampers I0 adjustable by the motor I I determine the proportions of outdoor and recirculated air supplied to the blowers.
- the sump I2 the air relief chamber 4, the refrigerated water source IS, the, by-pass so valve l4, the air vent I5; the pumps l6 and I1,
- the pumps l6 and H are preferably mounted onthe same shaft [9, which shaft is rotated by the motor l8 so as to rotate the rotors of the pumps I6 and I1, simultaneously.
- the pumps l6 and I1 and the motor are mounted exterior of and along side the chamber 4 and sump I2.
- Water from the sump I2 is drawn through the pipe to the pump l1 and is supplied through the pipe 2! to the spray nozzles 22 in the washer 6. Water from the washer 6 is returned through the pipe 23 to the air. relief chamber 4 and from there is drawn by pump 16 and supplied. by this pump to the by-pass valve l4 and then through the pipe 24 to the sump l2 or through the pipe 25 to the refrigerated waters source l3.
- the air relief chamber 4 is made higher than the sump l2 so that an air space may exist inthe chamber 4, above the water level in the sump l2 and chamber 4.
- the by-pass valve l4 provides a water by-pass around the refrigerated water source l3 when the indoor thermostat 26 has been satisfied.
- the thermostat 26 is connected in series with the solenoid 21 which adjusts the valve I4, and the electric source 28.
- the thermostat 26 closes its contacts causing the solenoid 21 to become energized to adjust the valve l4 to close the entrance to the pipe 24 and to open the entrance to the pipe 25. This causes the water from the washer to flow through the pipe 25, through the source l3, the pipe 29 and the sump I2. The spray wateris thus cooled by refrigeration.
- the thermostat 26 opens its contacts, the solenoid 21 is deenergized and the I 'valve. I4 is. adjusted to close the entrance to the pipe 25 and to open the entrance to the pipe 24.
- the pumps 16 and I1 then continuously recirculate the spray water without refrigeration, through the washer 6 and sump 12.
- the valve l4 isthus seen to open and close a water by-pass around the refrigerated water source I3.
- the thermostat responds to changesin the wet bulb temperature of the outdoor air entering the system and is connected in series with the motor H and electric source 28.
- the system will then continue in an evaporative cooling cycle until the outdoor wet bulb rises above 64 F., and the thermostat 30 causes the motor II to adjust the dampers II) for partial recirculation of the air, or the indoor load is so high that refrigerative cooling is required;
- the pump I6 thus servesto overcome the friction of the pipe and valves, reducing the suction load-of the pump H.
- the two rotors may readily be combined in a single casting requiring little if any more space and expense than that of the usual single rotor pump.
- valve I4 is elevated so that its stem extendsthrough the car floor with its adjusting wheel or lever above the car floor. This permits inspection and any necessary servicing from within the car.
- the elevation of the valve l4 thus provides an additional load upon the pumping system and represents another reason for the use of two pumps.
- Fig. 1 illustrates a water cooling system in which the water in the source l3 may be cooled by the meltage of ice or by the extraction of heat by evaporator coils.
- Fig. 2 illustrates a water cooling system designed specifically for cooling'by so-called mechanical refrigeration.
- the source l3 thus contains the evaporator coils 3
- the usual compressor 32, condenser 33 and expansion valve 34 are provided for'providing a compressed, condensed refrigerant within the coils 3
- the bypass valve and sump of Fig. 1 are omitted and the thermostate 26 stops and stops the compressor driving motor 35 instead of closing and opening the by-pass valve, respectively. Otherwise the system and its method of operation are the same.
- FIG. 2 no air relief chamber is shown.
- One similar to that of. Fig; 1 mayof course be used with the arrangement of Fig. 2 and the pump it of Fig. 2 may draw from an air relief chamber.
- the arrangement shown by Fig. 2 may be used if the pump I 6 can handle effectively, both air and water.
- An air conditioning system for a passenger vehicle comprising in combination, an overhead air washer, spray nozzles in said washer, means forming an air relief chamber below said washer, means connecting said chamber and the base of said washer for returning the water drained from said washer to said chamber, a two-way valve, means forming a sump alongside said chamber, a source of refrigerated water, means including a pump connecting said valve and said chamber for supplying water from said chamber to said valve, a pipe connecting said valve and said sump, piping connecting said valve and said source, means including a pump connecting said sump and said nozzles for supplying water from said sump to said nozzles, means connecting 5 said source and said sump for supplying water from said source to said sump, and means responsive to temperature changes in the passenger space of said vehicle for adjusting said valve to route the water from said chamber through said pipe directly to said pump, or through said piping to said source.
- An air conditioning system for a passenger vehicle comprising in combination,-an overhead air washer, spray nozzles in said washer, means forming an air relief chamber below said washer, means connecting said chamber and the base of said washer for returning the water drained from said washer to said chamber, a two-way valve, means forming a.
- a source of refrigerated water means including a pump connecting said valve and said chamber for supplying water from said chamber to said valve, a pipe connecting said valve and said sump, piping connecting said valve and said source, means including a pump connecting said sump and said nozzles for supplying water from said sump to said nozzles, means connecting said source and said sump for supplying waterfrom said source to said sump, thermostatic means responsive to temperature changes in the passenger space of said vehicle for adjusting said valve to route the water from said chamber through said pipe directly to said sump, or through said piping to said source, and common means for driving said pumps.
- An air conditioning system for a passenger vehicle comprising in combination, an overhead air washer, means forming an air relief chamber below said washer, means forming a sump alongside said chamber, means forming a source of refrigerated water, piping connecting said source and said sump for supplying water from said source into said sump, piping connecting said a washer and said chamber for returning the water v drained from said washer, a-two-way valve 10- cated above said sump and connected to said sump and to said source, means including a p p connected to said chamber and said valve or drawing water from said .chamber for supplying through said valve to said sump or to said source. means for adjusting said valve, and means including a second pump for drawing water from said sump for supplying to said washer.
Description
Dec. 5, 1939. F' -F]NNE]\'AQRE 2,182,174
AIR CONDITIONING SYSTEM Filed May 14, 1938 Sounce OF 19 Ramasnmsn 18 WATER ELECTRIC Sou Rc l:
41 23- {7 f 5 Q/ZG P 1 R332 $5 M 16 17 i ELECTRIC Sourecz 33 IWUGWi'flF Hfl Q LD FT pN VEMO CE: n CONDENSER Patented Dec. 5, 1939 AIR CONDITIONING SYSTEM Harold F. Finnemore, Mount Royal, Quebec, Canada, assignor to B. F. Sturtevant Company of Hyde Park, Boston, Mass.
Application May 14, 1938, Serial N0. 207,953
3 Claims.
This invention relates to air conditioning systems and relates more particularly to air washer systems for passenger vehicles.
This invention provides an improved air washer system for passenger vehicles such, for example, as railway passenger cars, particularly suitable for operation in evaporative cooling, and in refrigerative cooling cycles. Evaporative cooling may be employed when the Wet Bulb temperature is below say, 64 F., with great savings in refrigeration.
Afeature of this invention resides in providing in an air washer system, two pumps with their rotors preferably mounted on a single shaft, one
16 pump functioning to supply return water from an air washer through a two-way valve, either directly to a sump or through a water chiller to the sump, and the other pump functioning to supply spray water from the sump to the g0 washer.
An object of the invention is to provide an improved air washer system.
Another object of the invention is' to provide an improved evaporative cooling system for pasg5 senger vehicles.
Another object of the invention is to provide an improved air washer system for passenger vehicles-which is particularly suitable for operation in evaporative cooling and in refrigerative cooling cycles.
The invention will now be described with referenceto the drawing of which:
Fig. 1 is a diagrammatic view of one embodiment of an air conditioning system according to this invention, and
Fig. 2 is a diagrammatic view of the water sup- I ply section of another embodiment of an air conditioning system according to this invention. Referring now to Fig. 1, the blowers 5 and air washer 6 are mounted in one end and in the roof zone of a railway passenger car I. The blowers 5 drawfresh, outdoor air through the vestibule grille 8, and recirculated air through the grille 9. The dampers I0 adjustable by the motor I I, determine the proportions of outdoor and recirculated air supplied to the blowers.
Mounted preferably on the underside of the car are the sump I2, the air relief chamber 4, the refrigerated water source IS, the, by-pass so valve l4, the air vent I5; the pumps l6 and I1,
andtheir driving motor l8. I The pumps l6 and H are preferably mounted onthe same shaft [9, which shaft is rotated by the motor l8 so as to rotate the rotors of the pumps I6 and I1, simultaneously. The pumps l6 and I1 and the motor are mounted exterior of and along side the chamber 4 and sump I2.
Water from the sump I2 is drawn through the pipe to the pump l1 and is supplied through the pipe 2! to the spray nozzles 22 in the washer 6. Water from the washer 6 is returned through the pipe 23 to the air. relief chamber 4 and from there is drawn by pump 16 and supplied. by this pump to the by-pass valve l4 and then through the pipe 24 to the sump l2 or through the pipe 25 to the refrigerated waters source l3.
It is diflicult to prevent air from being entrained with'the water returned from the washer through the pipe 23. Air so entrained interferes with the water flow and it is desirable to eliminate it. For this purpose, the air relief chamber 4 is made higher than the sump l2 so that an air space may exist inthe chamber 4, above the water level in the sump l2 and chamber 4. The air entering the chamber 4 through the pipe 23, separates in the chamber 4 from the water and is vented to the atmosphere through the pipe IS. The by-pass valve l4 provides a water by-pass around the refrigerated water source l3 when the indoor thermostat 26 has been satisfied. The thermostat 26 is connected in series with the solenoid 21 which adjusts the valve I4, and the electric source 28. When the temperature within the car is too high, the thermostat 26 closes its contacts causing the solenoid 21 to become energized to adjust the valve l4 to close the entrance to the pipe 24 and to open the entrance to the pipe 25. This causes the water from the washer to flow through the pipe 25, through the source l3, the pipe 29 and the sump I2. The spray wateris thus cooled by refrigeration.
When, however, the desired indoor temperature is attained, the thermostat 26 opens its contacts, the solenoid 21 is deenergized and the I 'valve. I4 is. adjusted to close the entrance to the pipe 25 and to open the entrance to the pipe 24. The pumps 16 and I1 then continuously recirculate the spray water without refrigeration, through the washer 6 and sump 12. The valve l4 isthus seen to open and close a water by-pass around the refrigerated water source I3. The thermostat responds to changesin the wet bulb temperature of the outdoor air entering the system and is connected in series with the motor H and electric source 28. \When the wet bulb temperature is below say 64 F., conditions are favorable for evaporative cooling and the thermostat 30 closes its contacts to close the circuit energizing the motor H which then acts to close the recirculated air dampers [0. Only outdoor air then enters the system and when the indoor thermostat 26 has caused the valve M to open the by-pass around the source l3, the recirculated water is cooled down to the wet bulb temperature of the outdoor air and the dry bulb of the airis reduced to the same temperature by evaporative cooling. The system will then continue in an evaporative cooling cycle until the outdoor wet bulb rises above 64 F., and the thermostat 30 causes the motor II to adjust the dampers II) for partial recirculation of the air, or the indoor load is so high that refrigerative cooling is required; I
By providing the two. pumps, the load on each is reduced. The pump I6 thus servesto overcome the friction of the pipe and valves, reducing the suction load-of the pump H. The two rotors may readily be combined in a single casting requiring little if any more space and expense than that of the usual single rotor pump.
In practice, the valve I4 is elevated so that its stem extendsthrough the car floor with its adjusting wheel or lever above the car floor. This permits inspection and any necessary servicing from within the car. The elevation of the valve l4 thus provides an additional load upon the pumping system and represents another reason for the use of two pumps.
Fig. 1 illustrates a water cooling system in which the water in the source l3 may be cooled by the meltage of ice or by the extraction of heat by evaporator coils.
Fig. 2 illustrates a water cooling system designed specifically for cooling'by so-called mechanical refrigeration. The source l3 thus contains the evaporator coils 3|. The usual compressor 32, condenser 33 and expansion valve 34 are provided for'providing a compressed, condensed refrigerant within the coils 3|. The bypass valve and sump of Fig. 1 are omitted and the thermostate 26 stops and stops the compressor driving motor 35 instead of closing and opening the by-pass valve, respectively. Otherwise the system and its method of operation are the same.
In Fig. 2 no air relief chamber is shown. One similar to that of. Fig; 1 mayof course be used with the arrangement of Fig. 2 and the pump it of Fig. 2 may draw from an air relief chamber. The arrangement shown by Fig. 2 may be used if the pump I 6 can handle effectively, both air and water.
While two embodiments of the invention have been described for the purpose of illustration, it should be understood that the invention is not limitedv to the exact apparatus "and arrangement of apparatus illustrated and described, since many departures may be suggested by those skilled in the art, without departing from the spirit of the invention.
What is claimed is: v 1. An air conditioning system for a passenger vehicle comprising in combination, an overhead air washer, spray nozzles in said washer, means forming an air relief chamber below said washer, means connecting said chamber and the base of said washer for returning the water drained from said washer to said chamber, a two-way valve, means forming a sump alongside said chamber, a source of refrigerated water, means including a pump connecting said valve and said chamber for supplying water from said chamber to said valve, a pipe connecting said valve and said sump, piping connecting said valve and said source, means including a pump connecting said sump and said nozzles for supplying water from said sump to said nozzles, means connecting 5 said source and said sump for supplying water from said source to said sump, and means responsive to temperature changes in the passenger space of said vehicle for adjusting said valve to route the water from said chamber through said pipe directly to said pump, or through said piping to said source.
2. An air conditioning system for a passenger vehicle. comprising in combination,-an overhead air washer, spray nozzles in said washer, means forming an air relief chamber below said washer, means connecting said chamber and the base of said washer for returning the water drained from said washer to said chamber, a two-way valve, means forming a. sump alongside said chamber, a source of refrigerated water, means including a pump connecting said valve and said chamber for supplying water from said chamber to said valve, a pipe connecting said valve and said sump, piping connecting said valve and said source, means including a pump connecting said sump and said nozzles for supplying water from said sump to said nozzles, means connecting said source and said sump for supplying waterfrom said source to said sump, thermostatic means responsive to temperature changes in the passenger space of said vehicle for adjusting said valve to route the water from said chamber through said pipe directly to said sump, or through said piping to said source, and common means for driving said pumps.
3. An air conditioning system for a passenger vehicle comprising in combination, an overhead air washer, means forming an air relief chamber below said washer, means forming a sump alongside said chamber, means forming a source of refrigerated water, piping connecting said source and said sump for supplying water from said source into said sump, piping connecting said a washer and said chamber for returning the water v drained from said washer, a-two-way valve 10- cated above said sump and connected to said sump and to said source, means including a p p connected to said chamber and said valve or drawing water from said .chamber for supplying through said valve to said sump or to said source. means for adjusting said valve, and means including a second pump for drawing water from said sump for supplying to said washer.
HAROLD F. F'INNEMORE.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US207953A US2182174A (en) | 1938-05-14 | 1938-05-14 | Air conditioning system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US207953A US2182174A (en) | 1938-05-14 | 1938-05-14 | Air conditioning system |
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US2182174A true US2182174A (en) | 1939-12-05 |
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US207953A Expired - Lifetime US2182174A (en) | 1938-05-14 | 1938-05-14 | Air conditioning system |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2624337A (en) * | 1950-05-15 | 1953-01-06 | Air Shields | Equipment for treatment of respiratory ailments |
US3415076A (en) * | 1967-06-20 | 1968-12-10 | Borg Warner | Liquid chiller |
US6802368B2 (en) * | 1997-12-31 | 2004-10-12 | Temptronic Corporation | Temperature control system for a workpiece chuck |
-
1938
- 1938-05-14 US US207953A patent/US2182174A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2624337A (en) * | 1950-05-15 | 1953-01-06 | Air Shields | Equipment for treatment of respiratory ailments |
US3415076A (en) * | 1967-06-20 | 1968-12-10 | Borg Warner | Liquid chiller |
US6802368B2 (en) * | 1997-12-31 | 2004-10-12 | Temptronic Corporation | Temperature control system for a workpiece chuck |
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