US1600508A - Electromagnetic apparatus for hot-air heating furnaces - Google Patents

Electromagnetic apparatus for hot-air heating furnaces Download PDF

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US1600508A
US1600508A US650249A US65024923A US1600508A US 1600508 A US1600508 A US 1600508A US 650249 A US650249 A US 650249A US 65024923 A US65024923 A US 65024923A US 1600508 A US1600508 A US 1600508A
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fan
damper
inlet
chamber
frame
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US650249A
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James C Miles
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24DDOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
    • F24D5/00Hot-air central heating systems; Exhaust gas central heating systems

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  • This invention relates to apparatus used in hot air heating systems, and more particularly refers to an apparatus which may be used in such a system as is shown and described in my application, Serial No. 430,- 160, filed December 13, 1920, issued September 16, 1924, Patent No. 1,508,813.
  • the apparatus illustrated in my patent, embodies a fan and a damper. which are arranged to be positioned ad acent the inlet to the heating chamber .of a furnace.
  • the damper is arranged to be opened when the fan is stopped and to be closed when the fan is in operation, wherefore, the openings occupied by the fan and damper provide passageways for air when the fan is stopped,
  • Oneof the objects of this invention is the provision of means operable independently of the air ressure for effecting a positive closure of t e damper when the fan is turned on, and to obtain a positive opening of the damper when the fan is turned off,
  • Fig. .1 is a side elevation of a furnace s owing a conduit leading thereto, and illustrating my invention within the conduit;
  • Fig. 2 is a rear elevation of a unit embodying my invention;
  • Fig. 3 is a horizontal section taken through the conduit leading to the furnace;
  • Fig. 4 is a section taken on the correspondingly numbered line in Fi 2;
  • Fig. 5 is a wiring diagram.
  • I have shown the heating chamber of a hot air furnace at 10, with an inlet housing 11, and an inlet conduit 12. Disposed across the inlet openings and adjacent the casing 11, I have illustrated a frame 13 which is preferably provided with openings 14 and 15 respectively. Adjacent the opening 14, I have shown a fan 17 which is 1923. Serial No. 650,249. H
  • dampers 19 Dispose across the opening 15, I have shown dampers 19 which are pivoted at 20, to the frame.- Suitable mechanism for automatically'opening the dampers simultaneously when the fan is turned off, is provided wherefore sufficient area for the admission of air to the heating chamber is obtained to prevent overheating or burning out of the furnace when the fan is stopped.
  • I provide electro-magnetic means which may be electrically connected to the motor, wherefore, the operation of a single switch effects a simultaneous operation of the dampers and fan.
  • a solenoid 25 is disposed above the frame and centrally of the dampers.
  • a core 26 extends vertically through the solenoid and is operatively connected with the dampers as by a pin and slot connection 27- and 28 respectively.
  • each arm 29 which may extend laterally from the dampers.
  • the dampers are held in open 0- sition, as shown by the broken lines in ig, 4, by a counterweight 30, which may be carried on an extension of one of the arms. In this position the solenoid core 26 is in a downward position.
  • the dampers When the furnace is operating on the gravity system, the dampers are open and the fan is turned off. To eflect a closure of the dampers when the fan is turned on, the solenoid winding is connected in series withthe motor, wherefore, the solenoid is energized when the motor is turned on.
  • the winding of the solenoid is such that the core 26 is adapted to be raised for closing the dampers when the current is turned on, A suitable bracket 31 adjacent the bottom of the frame, provides a satisfactory hearing or guide for the moving core.
  • my invention provides a damper which is electrically closed when the fan is turned on and which is automatically opened when the fan is turned ofi.
  • I claim 1 In a heating apparatus, the combination with a heatmg chamber of a fan for 'forcing air into said chamber, a normally open damper associated with the fan for controlling an inlet to the chamber, and -means associated with the damper and operatively connected with the fan, whereby upon operation of the fan a positive automatic closure of said damper is effected, and whereby the damper is maintained closed so long as the fan is in operation.
  • a heating apparatus the combination with a heating chamber of a fan for forcing air into said chamber, a normally open damper associated with the fan and' controlling an inlet to the chamber, and electromagnetic means associated with the damper and electrically connected with the fan whereby upon operation of the fan a closure of said damper is effected.
  • a heating chamber having an air inlet with a damper opening and a fan opening, a fan for forcing air into the chamber through the inlet, a damper associated with said inlet, the damper being normally open so that when the fan is not in operation, air passes into the chamber through both the damper opening and the fan opening, and electromagnetic means for automatically closing the damper when the fan is turned on whereby all of the air entering the chamber then flows through the fan opening.
  • a heating apparatus the combination with a heating chamber having an air inlet, of a frame positioned across the inlet, a fan mounted within the frame, a damper intermediate the fan and one side of'the frame, said damper being normally open when the fan is inoperative, and electromagnetic means for automatically closing the damper when the fan is set in operation.
  • a heating apparatus thecombination-with a heating chamber having an air inlet, of a rectangular frame positioned across the inlet and occupying substantially the entire area thereof, a motor driven fan mounted within the frame, a yieldable normally open damper carried by the frame and disposed'on one side of the fan, whereby air may enter the chamber through the chamber of a hot air furnace having an inlet thereto, of a frame positioned across the inlet to said chamber, a damper pivoted to the frame, mechanical means for normally holding said damper in open position, a fan for forcing air into said chamber, and electromagnetic means for automatically closing the damper when the fan is in opera- .tion.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Furnace Details (AREA)

Description

Sept. 21 1926. 1.600.508
J. C. MILES v ELECTROMAGNETIC APPARATUS FOR HOT AIR HEATING FURNACES Filed July 1923 2 Sheets-Sheet 1 Jib Enron ATTYS.
Sept. 21 1926.
I J. (3., MILES ELECTROMAGNETIC APPARATUS.FOR HOT AIR HEATING FURNACES Filed July 9, 1923 2 Sheets-Sheet 2 jz/ O 0 Zf/YENTOR while the opening occupied by the fan com- Patented Sept 21, 1926.
JAMES 0. MILES, 0F CL vELANn, oino.
ELECTROMAGNETIC APPARATUS FOR HOT- IR HEATING FURNACES. 1
Application filed July 9,
This invention relates to apparatus used in hot air heating systems, and more particularly refers to an apparatus which may be used in such a system as is shown and described in my application, Serial No. 430,- 160, filed December 13, 1920, issued September 16, 1924, Patent No. 1,508,813.
Briefly, the apparatus, illustrated in my patent, embodies a fan and a damper. which are arranged to be positioned ad acent the inlet to the heating chamber .of a furnace. The damper is arranged to be opened when the fan is stopped and to be closed when the fan is in operation, wherefore, the openings occupied by the fan and damper provide passageways for air when the fan is stopped,
prises the only inlet when the fan is in operation. Thus when the fan is stopped, the furnace is operating on a gravity system, and when the fan is in motion, the furnace is operating on a forced air system.
Oneof the objects of this invention is the provision of means operable independently of the air ressure for effecting a positive closure of t e damper when the fan is turned on, and to obtain a positive opening of the damper when the fan is turned off,
I carry out the above object by employing electromagnetic means which is electrically connected with the fan motor wherefore the operation of a single switch, automatically shuts off the fan and opens the damper and vice versa.
The means for accomplishing the above object will be hereinafter more fully described in connection with the accompan ing drawings, and the essential features 0 my invention will be summarized in the claims.
In the drawin s, Fig. .1 is a side elevation of a furnace s owing a conduit leading thereto, and illustrating my invention within the conduit; Fig. 2 is a rear elevation of a unit embodying my invention; Fig. 3 is a horizontal section taken through the conduit leading to the furnace; Fig. 4 is a section taken on the correspondingly numbered line in Fi 2; Fig. 5 is a wiring diagram.
In Iig. 1, I have shown the heating chamber of a hot air furnace at 10, with an inlet housing 11, and an inlet conduit 12. Disposed across the inlet openings and adjacent the casing 11, I have illustrated a frame 13 which is preferably provided with openings 14 and 15 respectively. Adjacent the opening 14, I have shown a fan 17 which is 1923. Serial No. 650,249. H
adapted to be operated b a motor indicated generally at 18. Dispose across the opening 15, I have shown dampers 19 which are pivoted at 20, to the frame.- Suitable mechanism for automatically'opening the dampers simultaneously when the fan is turned off, is provided wherefore sufficient area for the admission of air to the heating chamber is obtained to prevent overheating or burning out of the furnace when the fan is stopped.
To effect an automatic operation of the dampers, consequent upon starting and stopping of the fan, I provide electro-magnetic means which may be electrically connected to the motor, wherefore, the operation of a single switch effects a simultaneous operation of the dampers and fan.
The preferred arrangement in indicated in Figs. 2 and 4, wherein a solenoid 25 is disposed above the frame and centrally of the dampers. A core 26 extends vertically through the solenoid and is operatively connected with the dampers as by a pin and slot connection 27- and 28 respectively.
A slot is illustrated in each arm 29 which may extend laterally from the dampers. Normally, the dampers are held in open 0- sition, as shown by the broken lines in ig, 4, by a counterweight 30, which may be carried on an extension of one of the arms. In this position the solenoid core 26 is in a downward position. V
When the furnace is operating on the gravity system, the dampers are open and the fan is turned off. To eflect a closure of the dampers when the fan is turned on, the solenoid winding is connected in series withthe motor, wherefore, the solenoid is energized when the motor is turned on. The winding of the solenoid is such that the core 26 is adapted to be raised for closing the dampers when the current is turned on, A suitable bracket 31 adjacent the bottom of the frame, provides a satisfactory hearing or guide for the moving core.
' Assuming that a device embodying my in vention is disposed across the inlet to the heating chamber of the furnace, and assuming further that switch A is closed, then the current will flow as follows. Line 40, solenoid winding 41, line 42, motor 43, line 44, switch A, and line 45. Lines 40 and 45 are connected to a suitable source of electrical supply (not shown). IVhen the motor is in operation, therefore, the solenoid, is
energized and the core 26 is maintained in v the uppermost osition wherefore the dampers 19 are close As soon as the switch A is opened, then the solenoid is deenerglized, wherefore the counterweight 30 being eavier than the damper, moves downwardly and thus .opens the dampers, 'as shown by the broken lines in Fig. 4.
In view of the foregoing description, it will be seen that my invention provides a damper which is electrically closed when the fan is turned on and which is automatically opened when the fan is turned ofi. An advantage of this arrangement is that a single switch may be employed for controlling the operation of both fan and damper, and that a positive. operation is effected for preventing burning out of the furnace in t e event the electrical apparatus should fail,
I claim 1. In a heating apparatus, the combination with a heatmg chamber of a fan for 'forcing air into said chamber, a normally open damper associated with the fan for controlling an inlet to the chamber, and -means associated with the damper and operatively connected with the fan, whereby upon operation of the fan a positive automatic closure of said damper is effected, and whereby the damper is maintained closed so long as the fan is in operation.
2. In a heating apparatus, the combination with a heating chamber of a fan for forcing air into said chamber, a normally open damper associated with the fan and' controlling an inlet to the chamber, and electromagnetic means associated with the damper and electrically connected with the fan whereby upon operation of the fan a closure of said damper is effected.
.3. In combination, a heating chamber having an air inlet with a damper opening and a fan opening, a fan for forcing air into the chamber through the inlet, a damper associated with said inlet, the damper being normally open so that when the fan is not in operation, air passes into the chamber through both the damper opening and the fan opening, and electromagnetic means for automatically closing the damper when the fan is turned on whereby all of the air entering the chamber then flows through the fan opening.
4. In a heating apparatus, the combination with a heating chamber having an air inlet, of a frame positioned across the inlet, a fan mounted within the frame, a damper intermediate the fan and one side of'the frame, said damper being normally open when the fan is inoperative, and electromagnetic means for automatically closing the damper when the fan is set in operation.
-5. In a heating apparatus, thecombination-with a heating chamber having an air inlet, of a rectangular frame positioned across the inlet and occupying substantially the entire area thereof, a motor driven fan mounted within the frame, a yieldable normally open damper carried by the frame and disposed'on one side of the fan, whereby air may enter the chamber through the chamber of a hot air furnace having an inlet thereto, of a frame positioned across the inlet to said chamber, a damper pivoted to the frame, mechanical means for normally holding said damper in open position, a fan for forcing air into said chamber, and electromagnetic means for automatically closing the damper when the fan is in opera- .tion.
7. The combination with the heating chamber of a hot air furnace having'an inlet thereto, of a frame disposed across the inlet to said chamber, a fan mounted adjacent said frame, a damper pivoted to the frame at one side of the fan, gravitational means for normally holding the damper in open position when the fan is stopped, and electromagnetic means for enabling the damper to be automatically closed when the fan is in operation.
8. The combination with the heating chamber of a-hot air furnace having an inlet thereto, of a frame disposed across the inlet to said chamber, a damper pivoted to the frame, a counter, weight on one side of the pivotal connection for normally holding the damper inopen position, a fan for forcing air through the inlet into the chamber, said damper being normally open when the fan is turned off, a solenoid electrically con nected with the fan, a core for said solenoid projecting across the damper, and means .inlet, a damper pivoted to the frame, a
motor driven fan disposed adjacent said frame for forcing air into the chamber, a solenoid carried-by the frame and electrically connected with said fan, a core for said solenoid disposed vertically across the damper and being operatively connected therewith, said core being in lowermost position when the current of the motor is turned off, and the connection between the core and damper being such that the damper is open when the current is turned off, and is closed when the current is turned on.
10. The combination with the heating chamber of a hot air furnace having an inlet thereto, of a frame disposed across the inlet and having two openings therein, a motor driven fan disposed adjacent one of said openings for forcing air into the chamher, a damper pivoted to the frame adjacent the other of said openings, a, vertically movable member having a lost motion connection with the damper, a solenoid sur rounding the member and being electrically connected with the motor, a counterweight carried by the damper for normally holding it in open position when the fan is turned ofi I whereby all of the air entering the chamber passes through both the fan and damper openings, and said member being so arranged that the damper is closed when the solenoid is energized and the fan is in operation, whereby all of the air then flows only through the fan opening.
In testimony whereof, I hereunto afiix my 20 signature.
JAMES C. MILES.
US650249A 1923-07-09 1923-07-09 Electromagnetic apparatus for hot-air heating furnaces Expired - Lifetime US1600508A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2503764A (en) * 1945-02-17 1950-04-11 Trade Wind Motorfans Inc Fan accelerated radiator cabinet
US2684623A (en) * 1951-05-11 1954-07-27 Major Joseph Automatic ventilation device
DE1033390B (en) * 1956-04-18 1958-07-03 M A H Maschinen Und Appbau Heg Device for heating, cooling and ventilating rooms
US20140110090A1 (en) * 2012-10-22 2014-04-24 Asustek Computer Inc. Heat dissipation device
CN103781332A (en) * 2012-10-22 2014-05-07 华硕电脑股份有限公司 Heat dissipation device

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2503764A (en) * 1945-02-17 1950-04-11 Trade Wind Motorfans Inc Fan accelerated radiator cabinet
US2684623A (en) * 1951-05-11 1954-07-27 Major Joseph Automatic ventilation device
DE1033390B (en) * 1956-04-18 1958-07-03 M A H Maschinen Und Appbau Heg Device for heating, cooling and ventilating rooms
US20140110090A1 (en) * 2012-10-22 2014-04-24 Asustek Computer Inc. Heat dissipation device
CN103781332A (en) * 2012-10-22 2014-05-07 华硕电脑股份有限公司 Heat dissipation device

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