US1843210A - Air conditioning method and apparatus for passenger cars - Google Patents

Air conditioning method and apparatus for passenger cars Download PDF

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Publication number
US1843210A
US1843210A US400929A US40092929A US1843210A US 1843210 A US1843210 A US 1843210A US 400929 A US400929 A US 400929A US 40092929 A US40092929 A US 40092929A US 1843210 A US1843210 A US 1843210A
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United States
Prior art keywords
air
car
passenger cars
air conditioning
water
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Expired - Lifetime
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US400929A
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Jesse H Davis
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BF Sturtevant Co
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BF Sturtevant Co
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Priority to US19759D priority Critical patent/USRE19759E/en
Application filed by BF Sturtevant Co filed Critical BF Sturtevant Co
Priority to US400929A priority patent/US1843210A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61DBODY DETAILS OR KINDS OF RAILWAY VEHICLES
    • B61D27/00Heating, cooling, ventilating, or air-conditioning
    • B61D27/0018Air-conditioning means, i.e. combining at least two of the following ways of treating or supplying air, namely heating, cooling or ventilating

Definitions

  • Figure 1 is a top plan view of a .car
  • Figure 3 is an outline perspective viewo'f a'car equipment, designed to carry out 'my invention.
  • Figure 4 is a top plan view of one end portion of Figure 1, Y
  • Figure 5 is a top plan view of a portion of, the half deck roof showing the air distributing ducts.
  • Figure 6 is an enlarged detail sectional view through the half deck of a car and the air conduit.
  • a nominal 1O kilowatt 110 volt direct current gen 'erator 6 is mounted beneath the car floor and is driven by a positive drive from the car axle, in addition the necessary regulatonfor maintaining a constant voltage a ove a certain critical speed, necessary automatic switch, etc.
  • the car may be equipped with a rotary converter 7 whereby alternating current from wayside points,
  • the hot ammonia is cooled by passing over water. coils in the condenser tank 8.
  • the ammonia is then passed through an expansion valve 9 and delivered'to the evaporator tank 10 beneath the car floor. Here it cir culates through tubes surrounded b water and during the expansion throug these tubes chills the water in the evaporator tank. From the evaporator the ammonia passes back to the low pressureside of the compressor.
  • the water contained in the tubes of the condenser 8 becomes heated due to cooling the compressed ammonia, and it is circulated by ineans of the pump 10a and delivered to the center point of the cooling tower 11 in the'corner of the car.
  • the water is sprayed, air from within or outside of the car isdrawn through the sprayed water, thus cooling the water back to about the temperature of air.
  • the water is then available for reuse in the tubes of the condenser.
  • the chilled water in the evaporator 10 is taken by the pump-12 and is delivered to the surface cooler 13 located overhead in the end of the car.
  • This cooler, 13' consists of suitable form of piping of proper material to which is attached fins 14 for increasing the radiatin surface, the coils being so arranged that as 1; 1e airpasses over the same the heat in the air will be given up tothe cool surfaces of the cooler.
  • the air in the car will be recirculated, but provision is made by means of a duct 16 for the admission of the desired amount of outside fresh air. This is controlled by a suitable damper 16.
  • the ou tside fresh air is passed through an air filter 17, which may be of a mechanicaldesign', or of the water spray type. The drawings sliow the mechanical type of air filter because it occupies less space, weighs less, and its 90 cost is less than the spray type of air filter.
  • I provide a perforated bafile 21, suitably secured in the space 22 under, butspaced from the openings 20. The air passes from the space 22 into the car through the perforations of the half deck plate 23.
  • dampers 27 for the openings 20 which may be operated in any suitable manner from within the car, and merely for purposes of illustrating some means for operating these dampers, I have shown the damper provided with a rack 28 which is engaged by a pinion 29 mounted on the operating rod 30 having a hand wheel 31' in the car, but of course it will be understood that I do not limit myself to this construction of damper operating means, as there are other means that may be employed for this purpose. If it is found that the conditioned air has a tendency to discharge into that end of the car near the cooler in too great a volume, this can be corrected by closing some of the dampers at that end, thus directing the air discharge further back into the car.
  • the air from the interior of the car is conducted through the ventilators 31 to the surface cooler 13.
  • ammonia as the refrigerant, it is, of course, understood that any suitable refrigerant may be used.
  • the method of conditioning the air in a passenger car which consists in chilling water, circulating said water to a cooling surface, passing the air over said cooled surface to cool it and delivering said cooled air and air ducts opening into the interior of the I car, all of said elements being in the half deck of the car, a cooling tower in said car and means connecting said cooling tower withsaid air cooling device.
  • an air conditioning device for pas senger cars the combination with a generator on the axle of the car, a condenser, and an evaporator, circulating pumps connected with said generator, condenser and evaporas tor, an air cooling device connected with said evaporator, a water cooling tower connected with said condenser, an expansion valve be tween said condenser and evaporator, a centrifugal fan associated with said air cooling device, and ducts to convey the air into the car.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Air-Conditioning For Vehicles (AREA)

Description

Feb. 2, 1932. J. H. DAVIS 1,843,210
AIR CONDITIONING METHODAND APPARATUS FOR PASSENGER CARS Filed Oct. 19, 1929 elimination'of all drafts.
' 1o jequipped 'with my invention.
" Patented Feb. 2, 1932 UNITED ESTATES-PATENT OFFICE nfinAvIs, or ALT I QREMARYLAND, AssIoNoR TO B. FQSTURTEVAIVIT M- mm, or BOSTON, mssacnusnrrs, A CORPORATION or MASSACHUSETTS AIR CONDITIONING Nnkrnon AND AII'ARATUS on. PAssENGER cans Application, filed October 19 The object'of my invention is the conditioning of, air in passenger carrying cars,
' freein it from all dust, soot, cinders and other oreign matter, and controlling its temperature and the humidity thereof, and the In the drawings, which are more or less diagrammatic:
Figure 1 is a top plan view of a .car
- F gure 2 isa vertical "sectional view on the line 2- -2, Figure 1.
. j 51 :Figure 3 is an outline perspective viewo'f a'car equipment, designed to carry out 'my invention.
' 3 Figure 4 is a top plan view of one end portion of Figure 1, Y
Figure 5 is a top plan view of a portion of, the half deck roof showing the air distributing ducts.
' Figure 6 is an enlarged detail sectional view through the half deck of a car and the air conduit.
In FigureL of the drawings I have shown the layout for air conditioning equipment for'an individual car system; that is to say, this car. is a unit completely equipped with the necessary gene-rating\and refrigerating facilities for air conditioning.
To provide the electrical energy required for the air conditioning equipment a nominal 1O kilowatt 110 volt direct current gen 'erator 6 is mounted beneath the car floor and is driven by a positive drive from the car axle, in addition the necessary regulatonfor maintaining a constant voltage a ove a certain critical speed, necessary automatic switch, etc. In addition, the car may be equipped with a rotary converter 7 whereby alternating current from wayside points,
such as depots and yards, may 'beconverted to direct current so that the air condition ing equipment may be operated while the' car is standing still. A motordriven refrigerating unit '15 of 1929- rial No. 40o,92
propercapacity is mounted beneath the car floor, and. compressed ammonia is delivered to the condenser tank 8 beneath the car-floor.
The hot ammonia is cooled by passing over water. coils in the condenser tank 8. The ammonia is then passed through an expansion valve 9 and delivered'to the evaporator tank 10 beneath the car floor. Here it cir culates through tubes surrounded b water and during the expansion throug these tubes chills the water in the evaporator tank. From the evaporator the ammonia passes back to the low pressureside of the compressor. v
The water contained in the tubes of the condenser 8 becomes heated due to cooling the compressed ammonia, and it is circulated by ineans of the pump 10a and delivered to the center point of the cooling tower 11 in the'corner of the car. Here the water is sprayed, air from within or outside of the car isdrawn through the sprayed water, thus cooling the water back to about the temperature of air. The water is then available for reuse in the tubes of the condenser.
The chilled water in the evaporator 10 is taken by the pump-12 and is delivered to the surface cooler 13 located overhead in the end of the car. This cooler, 13'consists of suitable form of piping of proper material to which is attached fins 14 for increasing the radiatin surface, the coils being so arranged that as 1; 1e airpasses over the same the heat in the air will be given up tothe cool surfaces of the cooler.
Normally the air in the car will be recirculated, but provision is made by means of a duct 16 for the admission of the desired amount of outside fresh air. This is controlled by a suitable damper 16. The ou tside fresh air is passed through an air filter 17, which may be of a mechanicaldesign', or of the water spray type. The drawings sliow the mechanical type of air filter because it occupies less space, weighs less, and its 90 cost is less than the spray type of air filter.
After the air is cooled y passing over! pleasing lines of the interior of the car, I
avail myself of the space, 22 now in present construction in the half deck between the plate 23 and the half deck roof 24, the only change in the plate 23 is that I provlde it with perforations 25 or suitable grill work. Over the half deck roof 24, I secure a plate 26 extending substantially the lengthof the car, thereby forming an air duct 19. The sheet or plate 26 is provided on the inside with suitable insulation 20. In the half deck roof 24, I
'providewith suitable intervals openings which establish communication between the duct 19 and the space 22, ,through which the treated air may-pass from the duct into thespace 22, and in order to prevent objectionabledrafts from entering the car, I provide a perforated bafile 21, suitably secured in the space 22 under, butspaced from the openings 20. The air passes from the space 22 into the car through the perforations of the half deck plate 23. In order that the admission of the conditioned air into the car may be under control, I provide dampers 27 for the openings 20 which may be operated in any suitable manner from within the car, and merely for purposes of illustrating some means for operating these dampers, I have shown the damper provided with a rack 28 which is engaged by a pinion 29 mounted on the operating rod 30 having a hand wheel 31' in the car, but of course it will be understood that I do not limit myself to this construction of damper operating means, as there are other means that may be employed for this purpose. If it is found that the conditioned air has a tendency to discharge into that end of the car near the cooler in too great a volume, this can be corrected by closing some of the dampers at that end, thus directing the air discharge further back into the car.
The air from the interior of the car is conducted through the ventilators 31 to the surface cooler 13.
lVhile I have shown a preferable location for the air ducts 19, it is obvious that other dispositions and locations for these ducts may be adopted without departing from the spirit of my invention.
While I have named ammonia as the refrigerant, it is, of course, understood that any suitable refrigerant may be used.
What I claim is:
'1. The method of conditioning the air in a passenger car, which consists in chilling water, circulating said water to a cooling surface, passing the air over said cooled surface to cool it and delivering said cooled air and air ducts opening into the interior of the I car, all of said elements being in the half deck of the car, a cooling tower in said car and means connecting said cooling tower withsaid air cooling device.
4. In an air conditlomng'devlce for passenger cars, the combination with "a generator on the axle of the car, a condenser, and an evaporator, circulating pumps connected with said generator, condenser and evaporator, an air cooling device connected with said evaporator, a water cooling tower connected with saidcondenser, an expansion valve be-' tween sald condenser and evaporator.
5. In an air conditioning device for pas senger cars, the combination with a generator on the axle of the car, a condenser, and an evaporator, circulating pumps connected with said generator, condenser and evaporas tor, an air cooling device connected with said evaporator, a water cooling tower connected with said condenser, an expansion valve be tween said condenser and evaporator, a centrifugal fan associated with said air cooling device, and ducts to convey the air into the car.
6. The method of conditioning and distributing air for passenger cars which consistsin filtering the air, cooling the filtered air, and introducing the air into'the car in the zone of the half deckof said car.
7. In combination, in a temperature regulating device for passenger cars, an air duct on the roof of the 'half deck of the car, ports extending from said duct through said roof, a half deck plate spaced from said roof to form a chamber in communication with said ports, and ports leading from said chamber into the car.
8. In combination, in a temperature regulating device for passenger cars, an air duct on the half deck roof of the car, a perforated half deck plate spaced from the roof, a wall extending from said-plate to the said roof forming a chamber. ports leading from the air ducts into said chamber, and a bafiie plate in said chamber below said ports.
9. In combination, in atemperature regulating device for passenger cars, an air duct on the half deck roofof the car, a perforated half deck plate spaced from the roof, a wall extending from said plate to the said roof forming a chamber, ports leadin from the air ducts into said chamber, and a afile plate 1 in said chamber below said ports and dampers controlling said ports.
10. The method of conditioning air and continuously distributing it at different points in the space occupied b passengers in railway cars, which consists in filtering the air, passing it overvcoolers and driving it through a system of ducts and distributing it throughout the car.
In testimony whereof I afiix my signature.
- JESSE H. DAVIS.
US400929A 1929-10-19 1929-10-19 Air conditioning method and apparatus for passenger cars Expired - Lifetime US1843210A (en)

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Application Number Priority Date Filing Date Title
US19759D USRE19759E (en) 1929-10-19 Air conditioning apparatus for
US400929A US1843210A (en) 1929-10-19 1929-10-19 Air conditioning method and apparatus for passenger cars

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US2872858A (en) * 1950-09-28 1959-02-10 Townsend F Beaman Method and apparatus for pressurized supply and high velocity air control
US20080011007A1 (en) * 2006-03-10 2008-01-17 International Truck Intellectual Property Company, Llc Cold plate refrigeration system optimized for energy efficiency
US9126544B2 (en) 2010-09-03 2015-09-08 Johnson Truck Bodies, LLC Integrated power system for delivery of power to a vehicle accessory

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