US1365309A - Cooling system for dynamo-electric machines - Google Patents

Cooling system for dynamo-electric machines Download PDF

Info

Publication number
US1365309A
US1365309A US154902A US15490217A US1365309A US 1365309 A US1365309 A US 1365309A US 154902 A US154902 A US 154902A US 15490217 A US15490217 A US 15490217A US 1365309 A US1365309 A US 1365309A
Authority
US
United States
Prior art keywords
air
passage
blower
cooling system
intake passage
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
Application number
US154902A
Inventor
George M Eaton
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CBS Corp
Original Assignee
Westinghouse Electric and Manufacturing Co
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Westinghouse Electric and Manufacturing Co filed Critical Westinghouse Electric and Manufacturing Co
Priority to US154902A priority Critical patent/US1365309A/en
Application granted granted Critical
Publication of US1365309A publication Critical patent/US1365309A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K9/00Arrangements for cooling or ventilating
    • H02K9/26Structural association of machines with devices for cleaning or drying cooling medium, e.g. with filters

Definitions

  • PatentedJan 1, 1921;
  • My invention relates toventilating apparatus, particularly of thetype that is used chines, and it has for its object to provide means for substantially eliminating foreign matter, such as snow and dirt, from the ventilating air that is: delivered to. such nachines.
  • higure 1 is a plan view showing the arrangement of the electrical apparatus beneath the floor of a railway vehicle
  • Fig. 2 is a side elevation of the apparatus shown in Fig. 1
  • Fig. 3 is an enlarged sectional view along the line TIL-I11 of Fig.1, showing the details of my invention.
  • FIG. 1 The outlines of the floor of a railway vehicle are shown by the broken lines inFig. 1.
  • a truck is pivotally related to the floor and electric motors 2 are suitably geared to the driving wheels 3 of the truck 1.
  • a trans former 4, for supplying power to the motors 2, ' is suitably supported by the floor of the car and is located adjacent to the motors.
  • An auxiliary motor 5 is coupled to a centrifugalblower 6 which iszprovided with an air intake passage 7, the details of. whichv will be herein after described.
  • the blower 6 is further provided with discharge passages 8 It is to be understood'thatthe transformer 4 and theinotors 2 may be ventilated in series and that. the auxiliary passage 11 may as wellbe connected at. any point in the system, my] object being to insure that heated. air, at somewhat above atmospheric pressure, shall be delivered to the passage .11.
  • the intake passage 7 comprises a duct 12,, the intake end of which is located ata point near the edgeof the car fioor, and, preferably, considerably above the driving wheels 3,
  • the duct 12 has a downwardly extending and gradually constricted portion 13 thatterminatcs,at it lowest point, in an orificel i.
  • the passage 7 expands upwardly from the orifice 14 and then extends downwardly to 1 the point where it is connectedto the intake opening-of the blower casing 15.
  • the auxiliary passage 11 is secured tothe intake passage 7 and is provided with a discharge opening 16 thatis alongside, and merges with: the orifice .14.
  • the possibility of such a condition is entirely avoided by the discharge of heated air, under pressure, through the auxiliary passage 11 and its discharge opening 16, the arrangement acting as an ejector to always insure that a certain amount of air, together with the foreign matter, shall be discharged through the orifice 14.
  • the discharge of heated air through the auxiliary passage 11 performs another function in preventing the formation of ice in the orifice 1d whenever a large amount of snow enters the duct 12.
  • the presence of the snow would otherwise tend to entirely or partially close the intake passage 7 and render the ventilating system ineffective.
  • the intake of the auxiliary passage 11 may be located-at any point in the ventilating system and its position may be altered in accordance with variations in atmospheric conditions. For example, heated air, at substantially atmospheric pressure, may be used during cold weather, while air at substantially outside temperature but at a pressure considerably above that of the atmosphere may be used during warm weather.
  • a cooling system the combination with a blower provided with an air intake passage, and a discharge passage, of means for continuously utilizing a portion of the air discharged by said blower to remove for eign matter from said intake passage.
  • a cooling system consisting of a blower, an air intake passage and a discharge passage, and means whereby a portionof the heated air from said discharge passage is brought into engagement with said intake passage'to prevent the formation of ice therein.
  • a cooling system consisting of a blower, an air intake passage-provided with an orifice, and a discharge passage, and means whereby a portion of the heated air in said discharge passage is utilized to heat said intake passage and to remove foreign matter from the air in the intake passage through said orifice.

Description

G. M. EATON.
coouwc SYSTEM FOR DYNAMO ELECTRIC MACHINES.
APPLICATION FILED MAR. 14. 1917.
l Patented Jan. 11, 1921.
WITNESSES:
INVENTOR George M. Ea for? ATTORNEY in connection with dynamo-electric ma cairn!) STATES PATENT OFFICE.
GEORGE M. nAToN, or PITTSBURGH, PENNSYLVANIA, \ASSIGNOR TO wEs'rINGnoUsi; ELECTRIC & MANUFACTURING COMPANY, A conronArroN or PENNSYLVANIA." I
COOLING SYSTEM FOR DYNAMO-ELECTRIC MACHINES.
Specification of Letters Patent. PatentedJan, 1, 1921;
Application filed March 14, 1917. Serial No. 154,902.
T 0 all w/wmtt may concern):
Be it known that I, Gnonen M. EATON, a citizen of the United States,.and a resident of Pittsburgh, inthe county of Allegheny andState of Pennsylvania, have invented a new and useful Improvement in Cooling Systems for Dynamo-Electric Machines, of which the following is a specification.
My invention relates toventilating apparatus, particularly of thetype that is used chines, and it has for its object to provide means for substantially eliminating foreign matter, such as snow and dirt, from the ventilating air that is: delivered to. such nachines.
It is well known'that the proper ventilationof electric driving motors andof auXil-.
iary apparatus for railway vehicles is animportant factor in the operation thereof and, as the electrical. apparatus is usually placed beneath the floor of, thevehicle, there is a great tendency for. dust and moisture to enter into the ventilating system. that may be employed in connection therewith. This tendency is particularly pronounced on electrified divisions .of main-line railroads on which the high train speeds'and open rightof-way. result iii the; production .ofmuch dust and in particularly bad snow conditions. As the various forms oflbafiies and screens usually embodied in self ventilated apparatus have been. found unsatisfactory, under the above described conditions,,lpropose to free the air of'foreign matter'before it is delivered to the machinesby providing a,combined'ejector and centrifugal separating device in the intake passage to the blower.
hr the accompanying; drawings, higure 1 is a plan view showing the arrangement of the electrical apparatus beneath the floor of a railway vehicle; Fig. 2 is a side elevation of the apparatus shown in Fig. 1, and Fig. 3 is an enlarged sectional view along the line TIL-I11 of Fig.1, showing the details of my invention.
The outlines of the floor of a railway vehicle are shown by the broken lines inFig. 1. A truck is pivotally related to the floor and electric motors 2 are suitably geared to the driving wheels 3 of the truck 1. A trans former 4, for supplying power to the motors 2, 'is suitably supported by the floor of the car and is located adjacent to the motors. An auxiliary motor 5 is coupled to a centrifugalblower 6 which iszprovided with an air intake passage 7, the details of. whichv will be herein after described. The blower 6 is further provided with discharge passages 8 It is to be understood'thatthe transformer 4 and theinotors 2 may be ventilated in series and that. the auxiliary passage 11 may as wellbe connected at. any point in the system, my] object being to insure that heated. air, at somewhat above atmospheric pressure, shall be delivered to the passage .11.
As best shown in Fig, 3,,the intake passage 7 comprises a duct 12,, the intake end of which is located ata point near the edgeof the car fioor, and, preferably, considerably above the driving wheels 3, The duct 12 has a downwardly extending and gradually constricted portion 13 thatterminatcs,at it lowest point, in an orificel i. The passage 7 expands upwardly from the orifice 14 and then extends downwardly to 1 the point where it is connectedto the intake opening-of the blower casing 15. The auxiliary passage 11 is secured tothe intake passage 7 and is provided with a discharge opening 16 thatis alongside, and merges with: the orifice .14.
Having, described, the various .parts enter;
passes into the; constricted portion 13.; The
suction of the blower and the form of the passage 7 then cause the air to take a reverse turn above the orifice 14:, but it will be readily understood that any particles having a specific gravity greater than that of the air will have a tendency to be expelled through the orifice 14: because of their inertia and of the centrifugal action of the air current as it makes the reverse turn. The'above-described separation of foreign matter from the air is eifective under most conditions of operation, but it is possible that, under certain atmospheric conditions and with the blower operating at full speed, there may be a tendency for air to be drawn into the passage through the orifice 14. The possibility of such a condition, however, is entirely avoided by the discharge of heated air, under pressure, through the auxiliary passage 11 and its discharge opening 16, the arrangement acting as an ejector to always insure that a certain amount of air, together with the foreign matter, shall be discharged through the orifice 14. The discharge of heated air through the auxiliary passage 11 performs another function in preventing the formation of ice in the orifice 1d whenever a large amount of snow enters the duct 12. The presence of the snow would otherwise tend to entirely or partially close the intake passage 7 and render the ventilating system ineffective. As previously pointed out, the intake of the auxiliary passage 11 may be located-at any point in the ventilating system and its position may be altered in accordance with variations in atmospheric conditions. For example, heated air, at substantially atmospheric pressure, may be used during cold weather, while air at substantially outside temperature but at a pressure considerably above that of the atmosphere may be used during warm weather.
While I have shown my invention in a simple and preferred form and as applied to an auxiliary blower, it is not so limited but may be as readily applied to self-ventilated machines and is susceptible of various modifications within the scope of the appended claims.
I claim as my invention:
1. In a cooling system, the combination with a blower provided with an air intake passage, and a discharge passage, of means for continuously utilizing a portion of the air discharged by said blower to remove for eign matter from said intake passage.
2. In a cooling system, the combination with a blower provided with an air intake passage, and atdischarge passage, of an ejector means located in said intake passage and continuously operated by a portion of the air discharged from said blower for removing foreign matter from the air delivered to said blower.
3. In a cooling system, the combination with a blower provided with an air intake passage and a discharge passage, of means for continuously utilizing the difference in pressure existing between the respective pas= sages to remove foreign matter from the air delivered to said blower.
4. In a cooling system, the combination with a blower provided with an air intake passage and a discharge passage, of an air passageway between said passages so arranged that the passageof air therethrough serves to eject foreign matter from the air delivered to said blower.
5. In a systemof ventilation, the combination with a blower provided with an intake passage and a discharge passage adapted to deliver cooling air to heat-generating apparatus, of means for utilizing a portion of the air delivered to said apparatus to prevent the formation of ice in the said intake passage.
6. In a cooling system, the combination with a blower provided with an intake passage and a discharge passage, and means whereby a portion of the air from said intake passage and a portion from said discharge passage are utilized to remove foreign matter from the air of said intake passa e.
I. In a heat producing device, a cooling system consisting of a blower, an air intake passage and a discharge passage, and means whereby a portionof the heated air from said discharge passage is brought into engagement with said intake passage'to prevent the formation of ice therein.
8. In a heat generating apparatus, a cooling system consisting of a blower, an air intake passage-provided with an orifice, and a discharge passage, and means whereby a portion of the heated air in said discharge passage is utilized to heat said intake passage and to remove foreign matter from the air in the intake passage through said orifice.
In testimony whereof, I have hereunto sub scribed my name this 28th day of Feb. 191 1 I GEORGE M. EATON.
US154902A 1917-03-14 1917-03-14 Cooling system for dynamo-electric machines Expired - Lifetime US1365309A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US154902A US1365309A (en) 1917-03-14 1917-03-14 Cooling system for dynamo-electric machines

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US154902A US1365309A (en) 1917-03-14 1917-03-14 Cooling system for dynamo-electric machines

Publications (1)

Publication Number Publication Date
US1365309A true US1365309A (en) 1921-01-11

Family

ID=22553292

Family Applications (1)

Application Number Title Priority Date Filing Date
US154902A Expired - Lifetime US1365309A (en) 1917-03-14 1917-03-14 Cooling system for dynamo-electric machines

Country Status (1)

Country Link
US (1) US1365309A (en)

Similar Documents

Publication Publication Date Title
US10933892B2 (en) High speed train power unit
CA1083885A (en) Air-cooling system for electric traction motors on a bogie of a motorized railway vehicle
US1365309A (en) Cooling system for dynamo-electric machines
US1621356A (en) Dust-preventing device for rear platforms of vehicles
US2235205A (en) Double end train
CN207389190U (en) Broad gauge alternating current-direct current transmission internal combustion engine vehicle
CN205292667U (en) Urban streetcar and automatic clearance sacrifice device of on -vehicle track thereof
CN102437637B (en) Three-component layout structure of DC600V train power supply device with filter reactor
JPH0335140B2 (en)
CA2916778C (en) Backup power system for railroad power units
CN104494607A (en) Broad-gauge internal combustion locomotive provided with high-speed main assistant integral shaft generator
US1360150A (en) And one-thied
US1814917A (en) Bus transportation system
JPH0367321B2 (en)
US1382910A (en) Sanding device
US750139A (en) Electrical controller for railway-cars
US159541A (en) Improvement in devices for warming and ventilating railroad-cars
US2702009A (en) Ventilation system for self-propelled vehicles
US568193A (en) dressler
Cooper The improved PCC car
US249264A (en) Railroad-car ventilator
JPS5923764A (en) Cooling device for electric apparatus in electric vehicle
US240658A (en) Ventilating passenger-cars
JP3426758B2 (en) Railway wheel insulation blow device
US1083717A (en) Automatic car-arrester.