US1578918A - Dynamo-electric machine and method of ventilating same - Google Patents

Dynamo-electric machine and method of ventilating same Download PDF

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Publication number
US1578918A
US1578918A US427958A US42795820A US1578918A US 1578918 A US1578918 A US 1578918A US 427958 A US427958 A US 427958A US 42795820 A US42795820 A US 42795820A US 1578918 A US1578918 A US 1578918A
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openings
fan
dynamo
ventilating
bearing
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US427958A
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William H Powell
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Allis Chalmers Corp
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Allis Chalmers Corp
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K9/00Arrangements for cooling or ventilating
    • H02K9/02Arrangements for cooling or ventilating by ambient air flowing through the machine
    • H02K9/04Arrangements for cooling or ventilating by ambient air flowing through the machine having means for generating a flow of cooling medium
    • H02K9/06Arrangements for cooling or ventilating by ambient air flowing through the machine having means for generating a flow of cooling medium with fans or impellers driven by the machine shaft

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  • This invention relates in general to dynamo-electric machines and methods of ventilating the same.
  • One of the objects of the invention is the provision of a dynamoelectric machine which will operate at high efiiciency.
  • Another object is the provision of a method and means whereby such machines are more efficiently cooled.
  • Still another object is the provision of a method and means whereby eddies in the ventilating fluid and recirculation of the same will be prevented.
  • Other objects will. appear hereinafter as the description of the invention proceeds.
  • the single figure of the drawing is a partially sectional side View of a dynamoelectric machine embodying the features of the invention.
  • the machine illustrated on the drawing is provided with a frame 1 carrying the field poles 2 which may be excited by field windings 3. Co-operating with the field poles is an armatu'.'e having a core 4 mounted in any suitable manner on the shaft 5. In this instance the core is held by the end-heads 6, 7.
  • the rear-end head 7 has an axially extending portion 8 and a radially extending portion 9.
  • the core of the armature is provided with the usual slots (not shown) in which the armature conductors are disposed and of these, only the end turns 1O, 11 are visible in the drawing.
  • the end-heads 6, 7 are shown as providing a means for supporting the end turns.
  • the end-heads 6, 7 are provided with ventilating openings 12, 13 respectively.
  • the armature is shown as including a commutator 14 having an axial ventilating passage 15. This passage is here shown disposed so as to communicate with an axial ventilating passage 17 in-the core.
  • the core is also providedwith radial ventilating pass ages 16 communicating with the axial passage 17 1 r
  • the machine is here shown as provided with a front bearing-bracket 18 having openings 19.
  • the bearing-bracket serves as a support for the brush rigging 20.
  • the brushes for co-operating with the commuta tor are not shown in the drawing but may be supported by the usual brush rods formlng part of the brush rigging.
  • the rear bearing-bracket 21 has openings 22 provided near the periphery of said bracket. Additional openings 23 are provided near the bearing housing.
  • the machine is provided with a fan 24 having any desired number of fan blades, which fan is here shown as carried by the radially extending portion of the rear endhead. 7
  • a baffle 25 of substantially annular form extends radially inward'from the inner periphery of the housing at the front side of the peripheral openings to a point a suitable distance to the front of the fan 24.
  • the bafile 25 is here shown as held in place and clamped between a surface on the frame and the surface on the rear bearing-bracket.
  • a baffle 26 is provided extending axially inward from the inclined wall of the rear bearing at a point above the openings near the bearing-housing. This battle is also disposed a suitable distance from the fan 24:.
  • baflle 26 mi ht be omitted depending on the configuration of the rear bracket. Itwill be noted that a chamber is. formed about the outer periphery of the fan whereby air expelled by the fan blades is blown directly out of the openings 22. This produces a strong suction act-ion at the inner periphery of the fan Whereby'air will be drawn into the machine through the openings 19 in the w front bearing-bracket.
  • front and rear ends are not used in a limiting sense but simply to distinguish the relachine in a substantially radially outward direction and at considerable velocity and is taken in at the other end of the machine, there is no chance for any of the heated expelled air to be re-circulated through the machine, which is a feature which in itself makes for very eflicient cooling of the machine.
  • the means for carrying out this step in the system of cooling includes the openings 23 through which air is drawn into the inside of the rear end-head 8 and passes from there out of the openings 13 in said end-head around and through the end turns 11 into the suction side of the fan.
  • a dynamo-electric machine an armature, a rear end-turn support having a radial portion and an axial portion said axial portion having openings, a fan carried bysa'rdr radial portion, a housing for said machine, a battle extending radially inward from said housing to the front side of said fan and a battle extending axially inward from said housing to the rear of said fan, said hon-sing having openings radially within said axial bafile communicating with the openings in said end-turn support, and openings between said baflies;
  • A. dynamo-electric machine comprising a stator including field poles and wind ings thereon, an armature co-operable with said poles, said armature including a core having an axial ventilating passage and radial passages communicating therewith, a front bearing-bracket having openings,
  • a rear bearing-bracket having openings near the periphery and near the bearing-housing, a rear end-turn support having radial openings communicating with the openings near the bearing-housing, a fan associated with said rear end-turn support and adapted to blow air out of said peripheral openings, a battle extending radially inward from the front side of said peripheral openings to the front side of said fan, and a bafile extending axially frontwards from the radially outer side of the openings near the bearing-housing to the rear side of the fan.
  • a dynamo-electric machine comprising a stator including field poles and windings thereon, an armature co-operable with said poles, said armature including a core and commutator, and having an axial ventilating passage, said core .having radial ventilating passages communicating with said axial ventilating passage in said armature, a front bearing-bracket having openv ings, a rear bearing-bracket having openings near the periphery and near the bearing-housing, a rear end-turn support having radial openings communicating with the openings near the bearing-housing, a fan associated with said rear end-turn support and adapted to blow air out of said peripheral openings, a baflle extending radially inward from the front side of said peripheral openings to the front side of said fan, and a bafile extending axially frontwards from the radially outer side of the openings near the bearing-housing to the rear side of the fan.
  • a dynamo-electric machine including a housing having peripheral openings and an opening near the axis at one end, an armature having an end-head, having radial openings, for supporting the end-turns of the armature Winding, said end-head having a radially extending portion, a fan including fan blades carried by said portion and extending transversely of said portion toward said end-turns, said fan being disposed in the end of said housing having said peripheral openings, whereby when said fan is in operation air will be drawn into said opening near the axis, thence through said radial openings in said end-head, through said end-turns, and will be then expelled through said peripheral openings.
  • a dynamo-electric machine including a housing having peripheral openings and an opening near the axis at one end, an armature having an end-head, having radial openings, for supporting the end-turns of the armature winding, said end-head having a radially extending portion, a fan including transversely extending fan blades mounted on said portion, said fan being disposed in the end of said housing having said peripheral openings, whereby when said fan is in operation air will be drawn into said opening near the axis, thence through said radial openings.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Motor Or Generator Cooling System (AREA)

Description

March 30 1926. 1,578,918
W. H. POWELL DYNAMO ELECTRIC MACHINE AND METHOD OF VENTILATING SAME Filed D80. 5, 1920 Patented Mar. 30, 1926.
UNITED STATES nit-I WILLIAM H. POWELL, 0F EILWAUKEE, WISCONSIN, ASSIGNOB TO ALLIS CHALMEBS MANUFACTURING COMPANY, OF MILWAUKEE, WISCONSIN, A CORPORATION 01' DELAWARE.
Dynamo-Emerald MACHINE AND mi'rnon or vnnrrm'rnte semi.
- 7 :Applioation filed December a, 1920. Serial 110427958.
To all whom it may concern:
Be it known that WILLIAM H. POWELL, a citizen of the United States, residing at- Milwaukee, in the county of Milwaukee and State of Wisconsin, has invented a certain new and useful Improvement in Dynamo-Electric Machines and Methods of Ventilating Same, of which the following is a specification.
This invention relates in general to dynamo-electric machines and methods of ventilating the same. One of the objects of the invention is the provision of a dynamoelectric machine which will operate at high efiiciency. Another object is the provision of a method and means whereby such machines are more efficiently cooled. Still another object is the provision of a method and means whereby eddies in the ventilating fluid and recirculation of the same will be prevented. Other objects will. appear hereinafter as the description of the invention proceeds.
The novel features of the invention will appear from the specification and the accompanying drawing forming a part thereof and showing one embodiment of said invention, and all these novel features are intended to be pointed out in the claims.
The single figure of the drawing is a partially sectional side View of a dynamoelectric machine embodying the features of the invention. The machine illustrated on the drawing is provided with a frame 1 carrying the field poles 2 which may be excited by field windings 3. Co-operating with the field poles is an armatu'.'e having a core 4 mounted in any suitable manner on the shaft 5. In this instance the core is held by the end-heads 6, 7. The rear-end head 7 has an axially extending portion 8 and a radially extending portion 9. The core of the armature is provided with the usual slots (not shown) in which the armature conductors are disposed and of these, only the end turns 1O, 11 are visible in the drawing. The end-heads 6, 7 are shown as providing a means for supporting the end turns.
The end-heads 6, 7 are provided with ventilating openings 12, 13 respectively.
The armature is shown as including a commutator 14 having an axial ventilating passage 15. This passage is here shown disposed so as to communicate with an axial ventilating passage 17 in-the core. The core is also providedwith radial ventilating pass ages 16 communicating with the axial passage 17 1 r The machine is here shown as provided with a front bearing-bracket 18 having openings 19. The bearing-bracket serves as a support for the brush rigging 20. The brushes for co-operating with the commuta tor are not shown in the drawing but may be supported by the usual brush rods formlng part of the brush rigging. The rear bearing-bracket 21 has openings 22 provided near the periphery of said bracket. Additional openings 23 are provided near the bearing housing.
The machine is provided with a fan 24 having any desired number of fan blades, which fan is here shown as carried by the radially extending portion of the rear endhead. 7
It will be seen that the frame 1, along with the front and rear bearing-bracket, form a housing for the machine. A baffle 25 of substantially annular form extends radially inward'from the inner periphery of the housing at the front side of the peripheral openings to a point a suitable distance to the front of the fan 24. The bafile 25 is here shown as held in place and clamped between a surface on the frame and the surface on the rear bearing-bracket. In the machine disclosed, a baffle 26 is provided extending axially inward from the inclined wall of the rear bearing at a point above the openings near the bearing-housing. This battle is also disposed a suitable distance from the fan 24:. Under certain conditions the baflle 26 mi ht be omitted depending on the configuration of the rear bracket. Itwill be noted that a chamber is. formed about the outer periphery of the fan whereby air expelled by the fan blades is blown directly out of the openings 22. This produces a strong suction act-ion at the inner periphery of the fan Whereby'air will be drawn into the machine through the openings 19 in the w front bearing-bracket. Some of this .air finds its way around the field windings 3 and from thence into the fan; another part of it passes over and through the commutator and also through the axial passage in the core and from thence outwardly through the radial passages in the core to the air gap between the pole pieces and core from where it-passes to the suction side of the fan. Some of the air also passes through the ventilating openings in the front endhead 6 thereby cooling the end-turns 10. The air may assume other paths than those mentioned but generally speaking, there is a general passage of air from the front end of the machine to the'rear end. It should be understood that the terms front and rear ends are not used in a limiting sense but simply to distinguish the relachine in a substantially radially outward direction and at considerable velocity and is taken in at the other end of the machine, there is no chance for any of the heated expelled air to be re-circulated through the machine, which is a feature which in itself makes for very eflicient cooling of the machine. In order to. more efliciently cool the end turns 11, provision is made for introducing a fresh supply of cool air, which has not already been heated up by passage through the armature, for example. The means for carrying out this step in the system of cooling, includes the openings 23 through which air is drawn into the inside of the rear end-head 8 and passes from there out of the openings 13 in said end-head around and through the end turns 11 into the suction side of the fan.
It should be understood that it is not desired that the invention claimed be limited to the exact-details of construction shown and described, for obvious modifications will occur to a person skilled in the art.
It is claimed and desired to secure by Letters Patent:
1. In a dynamo-electric machine, an armature, a rear end-turn support having a radial portion and an axial portion said axial portion having openings, a fan carried bysa'rdr radial portion, a housing for said machine, a battle extending radially inward from said housing to the front side of said fan and a battle extending axially inward from said housing to the rear of said fan, said hon-sing having openings radially within said axial bafile communicating with the openings in said end-turn support, and openings between said baflies;
2. A. dynamo-electric machine comprising a stator including field poles and wind ings thereon, an armature co-operable with said poles, said armature including a core having an axial ventilating passage and radial passages communicating therewith, a front bearing-bracket having openings,
a rear bearing-bracket having openings near the periphery and near the bearing-housing, a rear end-turn support having radial openings communicating with the openings near the bearing-housing, a fan associated with said rear end-turn support and adapted to blow air out of said peripheral openings, a battle extending radially inward from the front side of said peripheral openings to the front side of said fan, and a bafile extending axially frontwards from the radially outer side of the openings near the bearing-housing to the rear side of the fan.
8. A dynamo-electric machine comprising a stator including field poles and windings thereon, an armature co-operable with said poles, said armature including a core and commutator, and having an axial ventilating passage, said core .having radial ventilating passages communicating with said axial ventilating passage in said armature, a front bearing-bracket having openv ings, a rear bearing-bracket having openings near the periphery and near the bearing-housing, a rear end-turn support having radial openings communicating with the openings near the bearing-housing, a fan associated with said rear end-turn support and adapted to blow air out of said peripheral openings, a baflle extending radially inward from the front side of said peripheral openings to the front side of said fan, and a bafile extending axially frontwards from the radially outer side of the openings near the bearing-housing to the rear side of the fan.
4. A dynamo-electric machine including a housing having peripheral openings and an opening near the axis at one end, an armature having an end-head, having radial openings, for supporting the end-turns of the armature Winding, said end-head having a radially extending portion, a fan including fan blades carried by said portion and extending transversely of said portion toward said end-turns, said fan being disposed in the end of said housing having said peripheral openings, whereby when said fan is in operation air will be drawn into said opening near the axis, thence through said radial openings in said end-head, through said end-turns, and will be then expelled through said peripheral openings.
5. A dynamo-electric machine including a housing having peripheral openings and an opening near the axis at one end, an armature having an end-head, having radial openings, for supporting the end-turns of the armature winding, said end-head having a radially extending portion, a fan including transversely extending fan blades mounted on said portion, said fan being disposed in the end of said housing having said peripheral openings, whereby when said fan is in operation air will be drawn into said opening near the axis, thence through said radial openings. in said endhead, through said end-turns, and will be then expelled through said peripheral openm In combination with a dynamo-electric machine of the type having an armature with end-turns at the ends thereof, of means for causin a flow of ventilating fluid from one end of the machine to the other includsupply of ventilating fluid and causing it to pass radially through the end-turns at said 15 other end.
In testimony whereof, the signature of the inventor is aflixed hereto,
WILLIAM H. POWELL.
US427958A 1920-12-03 1920-12-03 Dynamo-electric machine and method of ventilating same Expired - Lifetime US1578918A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2457994A (en) * 1947-03-13 1949-01-04 Westinghouse Electric Corp Double-end-ventilated motor
US2488880A (en) * 1946-05-08 1949-11-22 Transit Res Corp Combination motor fan and brake drum
US2512905A (en) * 1948-12-30 1950-06-27 Gen Electric Baffle and end shield assembly for dynamoelectric machines
EP0013658A1 (en) * 1979-01-10 1980-07-23 Siemens Aktiengesellschaft Self-ventilating electric machine

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2488880A (en) * 1946-05-08 1949-11-22 Transit Res Corp Combination motor fan and brake drum
US2457994A (en) * 1947-03-13 1949-01-04 Westinghouse Electric Corp Double-end-ventilated motor
US2512905A (en) * 1948-12-30 1950-06-27 Gen Electric Baffle and end shield assembly for dynamoelectric machines
EP0013658A1 (en) * 1979-01-10 1980-07-23 Siemens Aktiengesellschaft Self-ventilating electric machine

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