US2187905A - Air conditioning - Google Patents

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US2187905A
US2187905A US194236A US19423638A US2187905A US 2187905 A US2187905 A US 2187905A US 194236 A US194236 A US 194236A US 19423638 A US19423638 A US 19423638A US 2187905 A US2187905 A US 2187905A
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air
temperature
water
sprays
room
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US194236A
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William M Killingsworth
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Frazier Simplex Inc
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Frazier Simplex Inc
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0007Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning
    • F24F5/0035Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning using evaporation
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0007Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F6/00Air-humidification, e.g. cooling by humidification
    • F24F6/12Air-humidification, e.g. cooling by humidification by forming water dispersions in the air
    • F24F6/14Air-humidification, e.g. cooling by humidification by forming water dispersions in the air using nozzles
    • F24F2006/146Air-humidification, e.g. cooling by humidification by forming water dispersions in the air using nozzles using pressurised water for spraying
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/54Free-cooling systems

Definitions

  • a particularly wellknown method consists in circulating a stream of air between an outlet and an inlet in the walls 10 of the room or rooms Whose atmospheric condi- Y tions are to be controlled.
  • This circulating stream of air is passed through sprays of water, moisture-removing instrumentalities, refrigerated l cooling coils and other known means for cleansing the vair and establishing the desired conditions oi' temperature and humidity.
  • the sprays of water and the refrigerating means are responsive in operation to knownv controlling devices, and the temperature and humidity of the m circulating air are automatically established and maintainedl at such values as to provide the de-4 sired atmospheric conditions within the room or rooms.
  • the circulating stream of air is 25 divided and caused to advance in multiple lines ⁇ of flow, each through individually controlled means for regulating temperature and moisture content, and in most cases fresh air from the outer atmosphere is introduced to the room or rooms with the circulated and treated air.l
  • fresh air from the outer atmosphere is introduced to the room or rooms with the circulated and treated air.l
  • 'I'he invention is particularly directed to refinementsl in this methodof conditioning air, and by virtue of such refinements the desired control of the atmosphere within a room4 or rooms may be effected more readily and with greater precision.
  • the apparatus illustrated is arranged in the line of'air circulation between the air inlet and outlet of the room or rooms (not shown) in which the atmosphere is to be conditioned.
  • the circulating air enters the apparatus by way ofa duct 2, and, under the influence of a motordriven fan l, leaves by way of a duct 3.
  • l0 Between the inlet and outlet ducts l2 and 3 the walls I of the apparatus provide a chamber in 1938, Serial No. 194,236 (Cl. 62-176) devices are arranged (on opposite sides of a partition 5) in two parallel sets A and B, and each set includesv two nozzle units 6, 6 arranged in series. Water is fed to the nozzles from a supply line 1, through pipe c and leads a and b.
  • Each of the baboards in nest N ' consists in a sheet s of metal, bent into a section of the a zigzag form shown, and in assembly the zigzag' sections, arranged in close lateral juxtaposition, extend vvertically from the floor of the chamber to the roof. And immediately beyond the bailles the grid G of cooling ⁇ coils is' arranged.
  • a'mechanical refrigerating unit R is arrangedto maintain the coils at sub-atmospheric temperature.
  • the refrigerating unit includes a compressor (not shown) driven by a motor--in thiscase an electric motor, energized through an electric circuit 8 connected to power supply lines 9.
  • more than one partition. 5 may be provided, and the owing air divided-into more than two streams, each subject to treatment by water-spraying devices.
  • louvers I0 included in'the chamber walls introduce fresh air drawn from the outer atmos-H phere, and in this case the fresh air enters through louvers I0 included in'the chamber walls,
  • the water supplied to the spraysl is cool water, Adrawn from. a natural supply, or
  • the temperature of Y the supply water is at substantially' constant subatmospheric value.
  • the control of the sets of sprays is established at diiferent temperature values.
  • each valve in each of the watersupplying leads a and b of the two sets of water sprays; each valve is by a circuit I2 connected to the power supply lines 9, and a thermostat I3 is included in each circuit I2.
  • the thermostats are arranged in the inlet duct 2, but it is to be understood that, alternately, they may be installed at some other point in the system where they will be responsive to the temperature of the air undergoing treatment.
  • each thermostat I3 operates in known way to increase or decrease the electric current flowing in its circuit I2, and, when such current increases or decreases, the valve II operates correspondingly to increase or decrease the quantity of water discharged by the particular set of nozzles.
  • the valve II operates correspondingly to increase or decrease the quantity of water discharged by the particular set of nozzles.
  • the two thermostats I3, I3 are designed and adjusted to operate at different critical temperatures, by virtue of which feature the temperature of the air in the room or rooms being conditioned is accurately maintained within a narrow range of permissive temperature variation.
  • the thermostat of the set A of water sprays is so designed and adjusted that, when the temperature of the air coming from the room is 72 degrees F., the valve controlling the supply of water to the sprays closes and cuts oi the ow of water.
  • the thermostat of the seil B of sprays is in like manner set to shut oi the ow of water when the temperature of such air comes to a value of 70 degrees F.
  • the valves II of both sets of water sprays are opened wide and maximum quantity of Water is delivered by the sprays of each stage. Both components of the divided stream of air are subjected to maximum cooling effect.
  • the valve II of sprays A closes and the water is cut off.
  • the two thermostats operate so far as practical to hold the temperature of the air in the room to a value of between '70 and '12 degrees F., it being understood that the critical values given are exemplary only. Of course, if the temperature of the air falls and remains below the lower of the two critical values (70 degrees in this case), it merely signies that the atmospheric temperature in the room has fallen below the point where cooling of the air is required.
  • the air-washing sprays operate to establish and maintain the desired temperature in the air of the room or rooms whose atmospheric conditions are to be controlled.
  • the humidity or moisture content of the air is also regulated.
  • the air'ilowing in divided stream from the washing and cooling Water sprays invariably contains more than the proper quantity of moisture-that is, the humidity of the air is too high.
  • the nest of baffles operates in usual way to remove substantially all condensed moisture carried in the streaming air, and the refrigerated grid, in suddenly cooling the flowing air, operates to condense moisture carried in vaporous state in the air.
  • the condensed vapors precipitate to the floor of the chamber, whence they are drained away in any convenient manner.
  • the humidostat When the humidity of the air flowing into the apparatus rises, the humidostat operates in known way to close the circuit 8, with the consequence and effect that the compressor motor is set in operation and the refrigerating effect of the unit R is increased; that is, the temperature of the coils of grid G reduced. Accordingly, the quantity of water vapor removed from the flowing air is increased.
  • the humidostat operates to open the circuit 8, with the result that the operation of the compressor motor is arrested; the refrigerating effect of the unit R is decreased, the temperature of the grid coil or coils rises, and the quantity of water vapor removed from the air is decreased. In such manner the moisture content or humidity of the air under treatment is automatically regulated and maintained at desired value.
  • the method of my invention is practised. It is to be noted of my method that the temperature of the treated air is controlled primarily by a plurality of sets of Water sprays, and the humidity by refrigerated coil or coils of a refrigerating unit or units. Both the fresh air and the air drawn from the room, or other region to be air-conditioned, are mixed and passed in two or more streams through the temperature-controlling and humidity-rectifying instrumentalities.
  • the method of establishing and maintaining desired atmospheric conditions within a room which method includes passing air drawn from the room and mixed with air drawn from the outer atmosphere in a divided stream through i a plurality of sets of water sprays, regulating the water supplied to said sets of sprays individually in accordance with variations in temperature of the air whose conditions 'are to be controlled, leading the several components of the divided stream of air from said sprays and passing them through the refrigerated coils of a single refrigerating unit, regulating the refrigerating effect of saidunit in accordance with variations in humidity of the air under control, and introducing the treated stream of air to said room.

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Sustainable Development (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Central Air Conditioning (AREA)

Description

Jan. 23, 1940. w. M. KlLLlNGswoRTH AIR CONDITIONING Filed March '7, 1938 A TTORNEYS.
l: I l J-q l l f INVENTOR.
Im Q i Patented Jan. 23, 1940 UNITED STATES vlf'li'llalwi" .OFFICE AIR ooNnrrroNrNG William M. Killingsworth, Claysville, Pa., assigner to Frazier-Simplex, Inc., a corporation of Delaware Application March 7,
2 Claims.
The art is familiar with various methodsv of i treating air to this end; A particularly wellknown method consists in circulating a stream of air between an outlet and an inlet in the walls 10 of the room or rooms Whose atmospheric condi- Y tions are to be controlled. This circulating stream of air is passed through sprays of water, moisture-removing instrumentalities, refrigerated l cooling coils and other known means for cleansing the vair and establishing the desired conditions oi' temperature and humidity. The sprays of water and the refrigerating means are responsive in operation to knownv controlling devices, and the temperature and humidity of the m circulating air are automatically established and maintainedl at such values as to provide the de-4 sired atmospheric conditions within the room or rooms.
In some cases the circulating stream of air is 25 divided and caused to advance in multiple lines` of flow, each through individually controlled means for regulating temperature and moisture content, and in most cases fresh air from the outer atmosphere is introduced to the room or rooms with the circulated and treated air.l In such way more accurate control of thedesired atmospheric conditions is obtained. 'I'he invention is particularly directed to refinementsl in this methodof conditioning air, and by virtue of such refinements the desired control of the atmosphere within a room4 or rooms may be effected more readily and with greater precision.
In the accompanying drawing I illustrate apparatus, in which and in the operation of which 0 my invention is realized. The drawing shows the apparatus diagrammatically, partly in plan from above and partly in horizontal section.
The apparatus illustrated is arranged in the line of'air circulation between the air inlet and outlet of the room or rooms (not shown) in which the atmosphere is to be conditioned. The circulating air enters the apparatus by way ofa duct 2, and, under the influence of a motordriven fan l, leaves by way of a duct 3. l0 Between the inlet and outlet ducts l2 and 3 the walls I of the apparatus provide a chamber in 1938, Serial No. 194,236 (Cl. 62-176) devices are arranged (on opposite sides of a partition 5) in two parallel sets A and B, and each set includesv two nozzle units 6, 6 arranged in series. Water is fed to the nozzles from a supply line 1, through pipe c and leads a and b. Each of the baiiles in nest N 'consists in a sheet s of metal, bent into a section of the a zigzag form shown, and in assembly the zigzag' sections, arranged in close lateral juxtaposition, extend vvertically from the floor of the chamber to the roof. And immediately beyond the bailles the grid G of cooling` coils is' arranged. In known way a'mechanical refrigerating unit R is arrangedto maintain the coils at sub-atmospheric temperature. The refrigerating unit includes a compressor (not shown) driven by a motor--in thiscase an electric motor, energized through an electric circuit 8 connected to power supply lines 9.
Manifestly, by mere duplication more than one partition. 5 may be provided, and the owing air divided-into more than two streams, each subject to treatment by water-spraying devices. And
manifestly the inlet duct, outlet duct, fan, nest of bailles, cooling coils, and refrigerating unit may the appended claims.
Into the stream of air flowing from duct 2, I
introduce fresh air drawn from the outer atmos-H phere, and in this case the fresh air enters through louvers I0 included in'the chamber walls,
be duplicated in the system withinthe intent of The water supplied to the spraysl is cool water, Adrawn from. a natural supply, or
from the delivery linesl of a municipal water system, or from the sump of .a water cooling system organized in known way with the airconditioning apparatus. The cool sprays of water Awash vand cool the flowing air, and the e degree to which the air is cooled is proportional to the quantity of water delivered by the sprays,
understanding, of course, that the temperature of Y the supply water is at substantially' constant subatmospheric value.
In accordance with the invention, I regulate the quantity of watersupplied to each set of nozzles individually, and the regulation is effected automatically, in accordance with variations in the dry-bulb temperature of the treated air. The control of the sets of sprays is established at diiferent temperature values. a
To this end the apparatus in which the invention is practised is provided with an electrically controlled valve l l. in each of the watersupplying leads a and b of the two sets of water sprays; each valve is by a circuit I2 connected to the power supply lines 9, and a thermostat I3 is included in each circuit I2. In this case the thermostats are arranged in the inlet duct 2, but it is to be understood that, alternately, they may be installed at some other point in the system where they will be responsive to the temperature of the air undergoing treatment. If the temperature of the air rises or falls, each thermostat I3 operates in known way to increase or decrease the electric current flowing in its circuit I2, and, when such current increases or decreases, the valve II operates correspondingly to increase or decrease the quantity of water discharged by the particular set of nozzles. Thus, as the temperature of the air rises or falls, water in greater or less quantities is delivered by the sprays, and the cooling eifect of the sprays on the owing air is correspondingly increased or decreased.
More specically, the two thermostats I3, I3 are designed and adjusted to operate at different critical temperatures, by virtue of which feature the temperature of the air in the room or rooms being conditioned is accurately maintained Within a narrow range of permissive temperature variation. The thermostat of the set A of water sprays is so designed and adjusted that, when the temperature of the air coming from the room is 72 degrees F., the valve controlling the supply of water to the sprays closes and cuts oi the ow of water. The thermostat of the seil B of sprays is in like manner set to shut oi the ow of water when the temperature of such air comes to a value of 70 degrees F. If the air owing from the room rises above 72 degrees F., the valves II of both sets of water sprays are opened wide and maximum quantity of Water is delivered by the sprays of each stage. Both components of the divided stream of air are subjected to maximum cooling effect. When the temperature of the air drops to a value of '72 degrees, the valve II of sprays A closes and the water is cut off. In brief, the two thermostats operate so far as practical to hold the temperature of the air in the room to a value of between '70 and '12 degrees F., it being understood that the critical values given are exemplary only. Of course, if the temperature of the air falls and remains below the lower of the two critical values (70 degrees in this case), it merely signies that the atmospheric temperature in the room has fallen below the point where cooling of the air is required.
Thus it is that the air-washing sprays operate to establish and maintain the desired temperature in the air of the room or rooms whose atmospheric conditions are to be controlled.
The humidity or moisture content of the air is also regulated. The air'ilowing in divided stream from the washing and cooling Water sprays invariably contains more than the proper quantity of moisture-that is, the humidity of the air is too high. In correcting this condition; I pass both components or" the divided stream oi. washed and cooled air rst through the nest N of baiiles and then through the grid G of refrigerated coils. The nest of baffles operates in usual way to remove substantially all condensed moisture carried in the streaming air, and the refrigerated grid, in suddenly cooling the flowing air, operates to condense moisture carried in vaporous state in the air. The condensed vapors precipitate to the floor of the chamber, whence they are drained away in any convenient manner.
The lower the temperature of the coils of the grid, the greater is the quantity of the included vapor that is condensed and removed from the flowing air. In order to establish and maintain the desired humidity in the room or rooms being air-conditioned, Iregulate the refrigerating effect of the unit R, and the refrigerating effect in turn regulates the humidity-determining temperature of the grid coils G, through which both components of the divided stream of air ow. This regulation of refrigerating effect is obtained by means of a humidostat I4 (a known device) that, connected in series in the energizing circuit 8 of the motor-driven compressor (not shown) of the refrigerating unit R, is arranged in the inlet duct 2. When the humidity of the air flowing into the apparatus rises, the humidostat operates in known way to close the circuit 8, with the consequence and effect that the compressor motor is set in operation and the refrigerating effect of the unit R is increased; that is, the temperature of the coils of grid G reduced. Accordingly, the quantity of water vapor removed from the flowing air is increased. Alternately, when the humidity of the air falls, the humidostat operates to open the circuit 8, with the result that the operation of the compressor motor is arrested; the refrigerating effect of the unit R is decreased, the temperature of the grid coil or coils rises, and the quantity of water vapor removed from the air is decreased. In such manner the moisture content or humidity of the air under treatment is automatically regulated and maintained at desired value.
Upon flowing through the grid coil or coils G the several components of the divided stream of air are merged, and under the inuence of the fan 4 are thoroughly mixed and introduced to duct 3, leading to the room or rooms whose atmosphere is to be held within specified limits of temperature and humidity. In thus regulating the temperature and humidity of the air introduced to the room, and in regulating the rate of circulation in usual way, such as by dampers or other means, the desired atmospheric conditions are established and maintained.
In the operation of the exemplary apparatus described, the method of my invention is practised. It is to be noted of my method that the temperature of the treated air is controlled primarily by a plurality of sets of Water sprays, and the humidity by refrigerated coil or coils of a refrigerating unit or units. Both the fresh air and the air drawn from the room, or other region to be air-conditioned, are mixed and passed in two or more streams through the temperature-controlling and humidity-rectifying instrumentalities.
I claim as my invention:
1. The method of establishing and maintaining desired atmospheric conditions within a room, which method includes passing air drawn from the room and mixed with air drawn from the outer atmosphere in a divided stream through i a plurality of sets of water sprays, regulating the water supplied to said sets of sprays individually in accordance with variations in temperature of the air whose conditions 'are to be controlled, leading the several components of the divided stream of air from said sprays and passing them through the refrigerated coils of a single refrigerating unit, regulating the refrigerating effect of saidunit in accordance with variations in humidity of the air under control, and introducing the treated stream of air to said room.
2. 'I'he method of establishing and maintaining desired atmospheric conditions within a room,'which method includes passing air drawn from the room and mixed with air drawn from the outer atmosphere in a dividedstream through a plurality of sets of water sprays. regulating the quantities of water flowing from said sets of sprays individually in accordance with variations from diilerent temperature values of the air whose conditions are to be controlled, leading the several components of the divided stream of air from said sprays and passing them through refrigerated coils, regulating the temperature of said coils in accordance with variations in humidity of the air under control, and introducing the treated stream of air to said room.
WILLIAM M. KImNGsWoRTH.
US194236A 1938-03-07 1938-03-07 Air conditioning Expired - Lifetime US2187905A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2694042A (en) * 1951-08-25 1954-11-09 Chicago Pump Co Method of humidifying an aeriform body supplied to diffusion media
US2812929A (en) * 1955-01-27 1957-11-12 Phillips Petroleum Co Process and apparatus for injecting a fluid into a dispersion zone
US2885867A (en) * 1956-04-02 1959-05-12 Alden I Mcfarlan Air conditioning system and control
US3129076A (en) * 1960-02-12 1964-04-14 Extraction Continue De Smet Method for deodorizing oil and similar materials, and apparatus for the working thereof
US5495721A (en) * 1994-06-03 1996-03-05 Ltg Lufttechnishche Gmbh Process for cooling and conditioning air
US5497628A (en) * 1994-07-29 1996-03-12 Ltg Lufttechnische Gmbh Air conditioning process and device

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2694042A (en) * 1951-08-25 1954-11-09 Chicago Pump Co Method of humidifying an aeriform body supplied to diffusion media
US2812929A (en) * 1955-01-27 1957-11-12 Phillips Petroleum Co Process and apparatus for injecting a fluid into a dispersion zone
US2885867A (en) * 1956-04-02 1959-05-12 Alden I Mcfarlan Air conditioning system and control
US3129076A (en) * 1960-02-12 1964-04-14 Extraction Continue De Smet Method for deodorizing oil and similar materials, and apparatus for the working thereof
US5495721A (en) * 1994-06-03 1996-03-05 Ltg Lufttechnishche Gmbh Process for cooling and conditioning air
US5497628A (en) * 1994-07-29 1996-03-12 Ltg Lufttechnische Gmbh Air conditioning process and device

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