US1865981A - Air conditioning unit - Google Patents

Air conditioning unit Download PDF

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US1865981A
US1865981A US549079A US54907931A US1865981A US 1865981 A US1865981 A US 1865981A US 549079 A US549079 A US 549079A US 54907931 A US54907931 A US 54907931A US 1865981 A US1865981 A US 1865981A
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air
valve
temperature
heater
conditioning unit
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US549079A
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Reuben N Trane
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/70Control systems characterised by their outputs; Constructional details thereof
    • F24F11/80Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
    • F24F11/83Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers
    • F24F11/84Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers using valves
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0035Indoor units, e.g. fan coil units characterised by introduction of outside air to the room
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0043Indoor units, e.g. fan coil units characterised by mounting arrangements
    • F24F1/005Indoor units, e.g. fan coil units characterised by mounting arrangements mounted on the floor; standing on the floor
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0071Indoor units, e.g. fan coil units with means for purifying supplied air
    • F24F1/0073Indoor units, e.g. fan coil units with means for purifying supplied air characterised by the mounting or arrangement of filters

Definitions

  • My invention relates to an air conditioning unit wherein the passage of the heating fluid through the heater is thermostatically con- I trolled by means subject to the influence of both the insideand outside air.
  • Another object of my invention is to provide within an air conditioning unit a. remotely operated damper within the unit whereby the flow of outside air m lated or entirely shut off.
  • Another object of my invention is an air conditioning unit, wherein the extended surface heater used for heating the air, is kept from freezing by the flow of extraordinary cold air through the fresh air inlet.
  • Another object of my invention is to have the extended surface heater controlled by a thermostatic valve which will remain wholly open at temperatures .below 50 deg. F. so as to w prevent freezing.
  • Another-object of my invention is to have the heater in the air conditioning unit controlled by a thermostatic valve which is actuated by a saturated vapor pressure of such 5 character that the valve is gradually closed as the temperature of the medium, to which the thermostatic valve is responsive approximates a pre-determined temperature.
  • Another object of my invention is to m gradually meter the flow of the steam through the heater as the temperature of the mixed air begins to approximate a pre-detergmined temperature.
  • Another object of my 1nvent10n is to pro- 33 vide ample ventilation of outside air which,
  • Fig. 1 is a side elevation sectional view of the air conditioning unit installed within the building
  • Fig. 2 is a front elevation of the air conditioning unit with the front panel taken away
  • Fig. 3 is a cross sectional view taken on the line 2 -2 of Fig. 2, showing thermostatic valve.
  • 10 is a heater supplied with the heating fluid through the supply inlet 11, and 12 is the heating flmd (to outlet.
  • the flow of the heating fluid is conmay be regu- 1931.
  • thermostatically controlled valve 13 trolled by a thermostatically controlled valve 13, hereafter further explained.
  • the casing around the air conditioning unit comprises a rear wall casing 14, a. front wall casing 15, an inclined top wall casing 16, and lnclined top outlet 17 Inside the casing is a blower 18 in operative engagement with the motor 19through the shaft 20 connecting the fan and the motor.
  • blower 21 represents the blower inlet which is below the partition 22, which defines the lower portion of the heating chamber and the upper portion of the blower chamber.
  • the filter 23 Within the blower chamber but below the blower is the filter 23, and below the filter in an air inlet chamber 24.
  • a cold air inlet 25 At one side of the air inlet chamber 24 is a cold air inlet 25 and on the opposite side is a recirculating air inlet 26.
  • the air conditioning unit is positioned against the outside wall 27 with an opening 28 therein for the cold air inlet.
  • a damper 30 Supported by the bottom of the casing 29 is a damper 30 controlling the flow of air through the inlet 28.
  • the damper is shown in a closed position and the dotted line represents the open osition.
  • Attached to the upper portion 0 the damper 30 is a spring 31 which has one end' attached to the lever arm 32, which pivots on the pivot bar 33, and the pivot bar extends through the casingso that it can be manually operated by means of the handle 34.
  • the damper may be also operated through means of a solenoid moving the lever arm 32, and in this operation there are.
  • the operation of the solenoid is controlled by electric currents either at the unit or remotely therefrom as is shown in Fig. 1.
  • 42 represents a panel in an adjoining room, preferably in the basement and under the control of the janitor, and wherein 43 is a switch controlling the energization' of the solenoid 35 through the circuits 44 and 47 51 represents the switch controllingjthe energization of solenoid 36 through the circuit 45 and 47.
  • the movement of the damper is facilitated by the counterweight 52'so that, for example, the downward movement of the end, of the loo lever arm 32 will threugh the spring 31 move the damper either up or down and into either an open or closed position.
  • the flow of the heating fluid. through the heater 10 is controlled by the thermostatic valve 13 which is a vapor actuated valve wherein the valve is controlled by a saturated vapor pressure generated in the bulb 38 and conveyed to the valve through the medium of a capillary tube 37.
  • the bulb 38 is placed below the blower and in such a position within the unit that it is subject to the temperature of the air just prior to entering the blower entrance 21, so that the bulb 38 is subject to the temperature influence of both the recirculated air that comes through the entrance 26 and of the outside air through the inlet. It is manifest that the thermo static bulb 38 may be positioned at any point within the casing wherein it is subject to the influence of the temperature of the mixed air before. it enters the heater.
  • the thermostatic valve is composed of a body 5'? which is closed on the ends by bonnets 58 and 59. Within the body is a motor bellows 60 threaded into the bonnet 58 at 61. The metal bellows 60 is in operative engagement with the valve throttle 62 which opens and closesuponthe seat 63. The other side of the throttle 62 is operatively engaged with the metal bellows 64, the flange 64a of which is secured between the bonnet 59 and the body 5?.
  • a spiral spring 65 exerting pressure against the end of the bellows 6t and tending to open the valve.
  • the pressure exerted by the spring 65 is directly controlled by the stem 66 passing through the bonnet 59.
  • the handle 67 On one end of the stem 65 is mounted the handle 67 which controls the pressure exerted by the spring.
  • the bellows 60 is operated by pressure of I saturated vapor conveyed to it by the capillary tube 37 from a bulb 38 remotely situated from the valve.
  • the ports 68 and 69 represent inlet and outlet ports of the valve and are reversible so that the steam may flow either way.
  • the pressure in the bulb 38 is variable.
  • U on determining the temperature at which it is desired that the thermostatic valve should close and stop the su L ply of the heating fluid to the heater, t e valve is adjusted to that point, by balancing the pressure exerted by the spring 65 againstthe saturated vapor pressure, at the pre-denaeaeer termined temperature with the valve in a closed position, so that with adecrease the saturated pressure due to a decreased. ten perature, the tendency of the spring would. to open the valve.
  • This valve closes gradu ally, and at a low temperature, for example a temperature of 50 deg.
  • the thermostatic valve be controlled by the term perature' of the mixed air entering the unit. It is manifest that when the mixed air is below the temperature of 70 deg. that heat should be imparted to it before entering the room, but that after the temperature in the room builds up from other heaters or from the heat of persons in the room, then the temperature of the recirculated air when mixed with the incoming fresh air will gradually approximate the desired temperature of 76 deg, and less heat is required to maintain a constant, even and desired temperature, and the same is true when the days outside get warmer, andthe temperature of the incoming fresh air when mixed with the recirculated air very nearly approximates the desired'temperature of 70 deg.
  • the janitor may close the damper by operating switch 51 and may close the damper by switch 43.
  • a heating and ventilating unit having casing divided into an air inlet chamber, a
  • blower chamber a .heater chamber and a discharge chamber, a recirculated air inlet and a fresh air inlet, and means for mixing the fresh air and recirculated air before entering the blower, an extended surface heater in said heating chamber and a thermostatic valve responsive to the temperature of the mixed air before such air enters the heater proportionately controlling the flow of heating fluid to said heater in relation to the different temperatures of such air.
  • a heating and ventilating unit having" a casing divided into an air inlet chamber
  • a blower chamber having a blower therein, a heater chamber, a recirculated air inlet and a fresh air inlet, an extended surface heater in said heating chamber, a substantially balanced thermostatic valve proportionately controlling the supply of heating fluid to said heater, according to changes in temperature of the mixed incoming air, said valve having a throttle actuated by vapor pressure from a communicating thermostatic element which is directly responsive to changes in temperature of the mixed air, saidthermostatic element located below the surface heater in the path of the mixed air.
  • a heating and ventilating unit having a casing divided into an air inlet chamber, a blower chamber, a heater chamber, a fresh I air inlet and a recirculated air inlet, an extended surface heater in said heatingchamher and a thermostatic valve proportionately controlling the supply of heating fluid to said heater inversely, accordin g to changes in temperature of the incoming air, said valve comprising a body having a valve seat, throttle, and an expansible and collapsible vessel filled with a saturated gas said vessel adapted to contact and move the valve throttle, a container'having a volatile liquid thereinsupplying a saturated gas to said vessel through the pressure of such saturated gas said container being located 'n the stream of mixed incoming air and subjected to the temperature of such airwhereby variations in temperature of air before it enters the heater will control the movement of the throttle.

Description

July 5, 1932. R. N. TRANE 1,865,981
AIR CONDITIONING UNIT Filed July 6. 1951 2 Sheets-Sheet 1 J J7 62 J8 J2 fivenov:
July 5, 1932. R TRANE 1,865,981
* AIR CONDITIONING UNIT Filed July 6, 1931 2 Sheets-Sheet 2 18 M 1a 25\ 80 19 fl/38 n r i "i 53 wa qwn 33 Patented July 5, 1933 I PATENT OFFICE REUBEN N. TRANE, OF LA. @SSE,- WISGONSIN AIR GONDI'IIONIN UNIT Application filed July 6,
My invention relates to an air conditioning unit wherein the passage of the heating fluid through the heater is thermostatically con- I trolled by means subject to the influence of both the insideand outside air.
Another object of my invention is to provide within an air conditioning unit a. remotely operated damper within the unit whereby the flow of outside air m lated or entirely shut off. Another object of my invention is an air conditioning unit, wherein the extended surface heater used for heating the air, is kept from freezing by the flow of extraordinary cold air through the fresh air inlet. Another object of my invention is to have the extended surface heater controlled by a thermostatic valve which will remain wholly open at temperatures .below 50 deg. F. so as to w prevent freezing.
Another-object of my invention is to have the heater in the air conditioning unit controlled by a thermostatic valve which is actuated by a saturated vapor pressure of such 5 character that the valve is gradually closed as the temperature of the medium, to which the thermostatic valve is responsive approximates a pre-determined temperature.
Another object of my invention is to m gradually meter the flow of the steam through the heater as the temperature of the mixed air begins to approximate a pre-detergmined temperature.
Another object of my 1nvent10n is to pro- 33 vide ample ventilation of outside air which,
combined with the recirculated air, is heated to not more than a pre-determined temperature. A In the accompanying drawingswhich illustrate my invention, Fig. 1 is a side elevation sectional view of the air conditioning unit installed within the building, and Fig. 2 is a front elevation of the air conditioning unit with the front panel taken away. Fig. 3 is a cross sectional view taken on the line 2 -2 of Fig. 2, showing thermostatic valve.
Referring to Figs. 1 and 2, 10 is a heater supplied with the heating fluid through the supply inlet 11, and 12 is the heating flmd (to outlet. The flow of the heating fluidis conmay be regu- 1931. Serial No. 549,079.
trolled by a thermostatically controlled valve 13, hereafter further explained.
The casing around the air conditioning unit comprises a rear wall casing 14, a. front wall casing 15, an inclined top wall casing 16, and lnclined top outlet 17 Inside the casing is a blower 18 in operative engagement with the motor 19through the shaft 20 connecting the fan and the motor.
21 represents the blower inlet which is below the partition 22, which defines the lower portion of the heating chamber and the upper portion of the blower chamber. Within the blower chamber but below the blower is the filter 23, and below the filter in an air inlet chamber 24. At one side of the air inlet chamber 24 is a cold air inlet 25 and on the opposite side is a recirculating air inlet 26.
The air conditioning unit is positioned against the outside wall 27 with an opening 28 therein for the cold air inlet. Supported by the bottom of the casing 29 is a damper 30 controlling the flow of air through the inlet 28. The damper is shown in a closed position and the dotted line represents the open osition. Attached to the upper portion 0 the damper 30 is a spring 31 which has one end' attached to the lever arm 32, which pivots on the pivot bar 33, and the pivot bar extends through the casingso that it can be manually operated by means of the handle 34.
The damper may be also operated through means of a solenoid moving the lever arm 32, and in this operation there are. two solenoids, and 36, o positely disposed, with a core between t e solenoids, the lever arm 32 being pivoted on the solenoid 55 at 56. The operation of the solenoid is controlled by electric currents either at the unit or remotely therefrom as is shown in Fig. 1. 42 represents a panel in an adjoining room, preferably in the basement and under the control of the janitor, and wherein 43 is a switch controlling the energization' of the solenoid 35 through the circuits 44 and 47 51 represents the switch controllingjthe energization of solenoid 36 through the circuit 45 and 47. The movement of the damper is facilitated by the counterweight 52'so that, for example, the downward movement of the end, of the loo lever arm 32 will threugh the spring 31 move the damper either up or down and into either an open or closed position.
The flow of the heating fluid. through the heater 10 is controlled by the thermostatic valve 13 which is a vapor actuated valve wherein the valve is controlled by a saturated vapor pressure generated in the bulb 38 and conveyed to the valve through the medium of a capillary tube 37. The bulb 38 is placed below the blower and in such a position within the unit that it is subject to the temperature of the air just prior to entering the blower entrance 21, so that the bulb 38 is subject to the temperature influence of both the recirculated air that comes through the entrance 26 and of the outside air through the inlet. It is manifest that the thermo static bulb 38 may be positioned at any point within the casing wherein it is subject to the influence of the temperature of the mixed air before. it enters the heater.
Referring to Fig. 3, the thermostatic valve is composed of a body 5'? which is closed on the ends by bonnets 58 and 59. Within the body is a motor bellows 60 threaded into the bonnet 58 at 61. The metal bellows 60 is in operative engagement with the valve throttle 62 which opens and closesuponthe seat 63. The other side of the throttle 62 is operatively engaged with the metal bellows 64, the flange 64a of which is secured between the bonnet 59 and the body 5?.
inside of the bellows 64 is a spiral spring 65 exerting pressure against the end of the bellows 6t and tending to open the valve. The pressure exerted by the spring 65 is directly controlled by the stem 66 passing through the bonnet 59. On one end of the stem 65 is mounted the handle 67 which controls the pressure exerted by the spring. The bellows 60 is operated by pressure of I saturated vapor conveyed to it by the capillary tube 37 from a bulb 38 remotely situated from the valve.
The ports 68 and 69 represent inlet and outlet ports of the valve and are reversible so that the steam may flow either way.
Referring to the operation oithe thermostatic valve, the pressure exerted b the spring tending to 0 en the valve, 1s 0pposed to the pressure 0? the saturated vapor in the bellows 60, and the pressure of the saturated vapor depends upon the temperature created in the bulb 38 by the evaporation of a volatile liquid, the vapor being conveyed from the bulb 38 to the bellows 60, and.
it is manifest that the pressure in the bulb 38 is variable. U on determining the temperature at which it is desired that the thermostatic valve should close and stop the su L ply of the heating fluid to the heater, t e valve is adjusted to that point, by balancing the pressure exerted by the spring 65 againstthe saturated vapor pressure, at the pre-denaeaeer termined temperature with the valve in a closed position, so that with adecrease the saturated pressure due to a decreased. ten perature, the tendency of the spring would. to open the valve. This valve closes gradu ally, and at a low temperature, for example a temperature of 50 deg. E, which is the boiling oint of ethyl chloride, the volatile liquid use the spring tension would keep the valve entirely open, and as the temperature in.- creases, ior example, up to 70 deg, there is an increased saturated vapor pressure which gradually moves the throttle of the valve towards a closed position. Thus at 56 deg. there is an unobstructed flow of steam throu h the valve, but as the temperature approac es 76 deg. the throttle of the valve adually closes furnishing an additional obstruction to the fiow of steam through the valve. This action becomes important just prior to the time that the rare-determined temperature of the medium surrounding the bulb 38 is reached, because at that point the valve is so far closed as to allow only a small quan- V tity of steam to pass through the valve.
If it is desired that no heat should be imparted to any of the mixed air which enters the. blower at over 70 deg, then as the temperature of the mixed air approaches the temperature of 70 deg. very little heat is required to be imparted to the mixed air temperature in order to bring it up to 76 deg.
In this invention it is important that the thermostatic valve be controlled by the term perature' of the mixed air entering the unit. It is manifest that when the mixed air is below the temperature of 70 deg. that heat should be imparted to it before entering the room, but that after the temperature in the room builds up from other heaters or from the heat of persons in the room, then the temperature of the recirculated air when mixed with the incoming fresh air will gradually approximate the desired temperature of 76 deg, and less heat is required to maintain a constant, even and desired temperature, and the same is true when the days outside get warmer, andthe temperature of the incoming fresh air when mixed with the recirculated air very nearly approximates the desired'temperature of 70 deg. In this case it is obvious that very little heat should be added to the incoming mixed air and this has been accom plished as shown herein. Sometimes it becomes advisable, as at night, to entirely shut off the flow of the incoming fresh air, and this I prefer to accomplish by means of a damper which is controlled by the solenoids 35 and 36 moving the" lever arm 32, This may be accomplished automatically, but in public buildings I prefer that the dampers be operated from some remote and preferably a central position.
in Fig. 1 the janitor may close the damper by operating switch 51 and may close the damper by switch 43.
While I have shown my invention as embodied in the specific form shown and described and having suggested only the specific alternatives, I contemplate that many. changes may be made without departing from the scope or spirit of my invention.
I claim:
1. A heating and ventilating unit having casing divided into an air inlet chamber, a
blower chamber, a .heater chamber and a discharge chamber, a recirculated air inlet and a fresh air inlet, and means for mixing the fresh air and recirculated air before entering the blower, an extended surface heater in said heating chamber and a thermostatic valve responsive to the temperature of the mixed air before such air enters the heater proportionately controlling the flow of heating fluid to said heater in relation to the different temperatures of such air.
2. A heating and ventilating unit having" a casing divided into an air inlet chamber,
a blower chamber, having a blower therein, a heater chamber, a recirculated air inlet and a fresh air inlet, an extended surface heater in said heating chamber, a substantially balanced thermostatic valve proportionately controlling the supply of heating fluid to said heater, according to changes in temperature of the mixed incoming air, said valve having a throttle actuated by vapor pressure from a communicating thermostatic element which is directly responsive to changes in temperature of the mixed air, saidthermostatic element located below the surface heater in the path of the mixed air.
3. A heating and ventilating unit having a casing divided into an air inlet chamber, a blower chamber, a heater chamber, a fresh I air inlet and a recirculated air inlet, an extended surface heater in said heatingchamher and a thermostatic valve proportionately controlling the supply of heating fluid to said heater inversely, accordin g to changes in temperature of the incoming air, said valve comprising a body having a valve seat, throttle, and an expansible and collapsible vessel filled with a saturated gas said vessel adapted to contact and move the valve throttle, a container'having a volatile liquid thereinsupplying a saturated gas to said vessel through the pressure of such saturated gas said container being located 'n the stream of mixed incoming air and subjected to the temperature of such airwhereby variations in temperature of air before it enters the heater will control the movement of the throttle.
In witness whereof, I hereunto subscribe my name this2d day of 'July, 1931.
REUBEN N. TRAN'E.
US549079A 1931-07-06 1931-07-06 Air conditioning unit Expired - Lifetime US1865981A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2814977A (en) * 1954-06-29 1957-12-03 Frank P Noll Ventilator control device
US20110315345A1 (en) * 2010-03-09 2011-12-29 Yi-Hsiung Lin Indoor air conditioner able to carry out washing and cleaning automatically
US20130052936A1 (en) * 2011-08-31 2013-02-28 John C. Jordan Heating and cooling ventilation system

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2814977A (en) * 1954-06-29 1957-12-03 Frank P Noll Ventilator control device
US20110315345A1 (en) * 2010-03-09 2011-12-29 Yi-Hsiung Lin Indoor air conditioner able to carry out washing and cleaning automatically
US20130052936A1 (en) * 2011-08-31 2013-02-28 John C. Jordan Heating and cooling ventilation system

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