US3172278A - Fabric treating machine with drive means to effect a tumble, distribution and extraction operation - Google Patents

Fabric treating machine with drive means to effect a tumble, distribution and extraction operation Download PDF

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Publication number
US3172278A
US3172278A US293772A US29377263A US3172278A US 3172278 A US3172278 A US 3172278A US 293772 A US293772 A US 293772A US 29377263 A US29377263 A US 29377263A US 3172278 A US3172278 A US 3172278A
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speed
motor
tumble
receptacle
velocity
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US293772A
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English (en)
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Charlas W Burkland
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Maytag Corp
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Maytag Corp
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Priority to US293772A priority Critical patent/US3172278A/en
Priority claimed from US293771A external-priority patent/US3172277A/en
Priority to FR980996A priority patent/FR1418870A/fr
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    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/30Driving arrangements 
    • D06F37/304Arrangements or adaptations of electric motors
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/30Driving arrangements 
    • D06F37/36Driving arrangements  for rotating the receptacle at more than one speed

Definitions

  • the actual distribution speed is dependent upon variables including receptacle size and load conditions.
  • the variability with load conditions imposes impossible requirements on many drive systems and of necessity results in the use of a single, substantially constant compromise distribution speed.
  • the present invention achieves the above objectives by a system which includes a conventional two-speed drive motor, alternately energized for each of its two predetermined speeds for predetermined time intervals of relatively short duration, to attain a slowly accelerating distribution speed.
  • This slowly accelerating distribution speed insures that an optimum distribution speed for a wide range of sizes and types of loads is realized.
  • FIGURE 1 is a rear elevational view of a combination washer-drier unit shown partially in section embodying the drive system of the present invention
  • FIGURE 2 is a side-elevational view partially in section of the combination washer-drier unit of FIGURE 1 and more specifically showing the motor and two-spew transmission;
  • FIGURE 3 is an electrical schema-tic circuit showing electrical connections to the drive system and controls related thereto.
  • the combination washer-drier unit embodying the present invention includes a substantially fiat surfaced base frame 10 mounted on legs 11. Mounted upon base frame 10 are the channel members 13 and 14- which are welded or securely afiixed in some suitable manner to the base frame 10 to form the two major supports for the washer-drier unit illustrated in the accompanying figures.
  • channel members 13 and 14 are substantially triangular in elevational configuration with the apex of these members receiving pivot pins 16 and 17.
  • These pivot pins 16 and 17 support tub brackets 21 and 22 to provide a two-point support for the tub or casing which is generally indicated by the arrow 2%.
  • Tub 2 5 which is fastened to brackets 21 and 22 may thus oscillate back and forth on pins 16 and 17 in an arcuate movement in response to various forces generated within that tub.
  • FIGURE 1 shows the tub 24 as being provided with a damper bracket 28 which forms the support for the damper leaf spring 29 carrying the damper pad 31 in a ball and socket joint at the end of damper spring 29.
  • Base frame it is provided with an upstanding damper plate 32 which is frictionally engaged by the damper pad 31 for retarding oscillatory movement of tub 24 by absorbing and dissipating the energy causing tub 24 to oscillate on the supporting pins 16 and 17.
  • Tub or casing 24 includes a generally cylindrical side wall 71, a pair of spaced rear walls 72 and 73 and a front wall 74.
  • the front and outer rear walls 74 and '72, respectively, are connected to cylindrical side Wall '71 by means of the encompassing flanged hoop-like members '76 while the partition wall 73 positioned between walls 72 and '74 is welded to side wall '71. It will be seen from an inspection of FIGURE 2 that the spaced rear walls 72 and 73 support the tub bearing assembly generally indicated by the reference numeral 80.
  • the tub bearing assembly 84 includes a spacer hub 81 which is located between and which abuts the rear walls '72 and 73, and a tubular clamp member 82 located concentrically within hub $1.
  • Clamp member 12 is formed with a shoulder 85 at one end thereof and has a threaded portion 84 at the other end thereof for receiving spanner clamp nut 83 which, when tightened on member 82, produces a rigid support with respect to tub 24 for two bearings (not shown) one of which is located adjacent each of walls '72 and 73 for support of receptacle drive shaft 89.
  • Drum 95 includes a perforate rear wall 96 which is rigidly ailixed to and cooperates with the spiderlike member 97 to form a double cone support connected to the hub 94 and providing a rigid support for the clothes basket 95 on drum drive shaft 89.
  • a sealing member lill is biased against the rear surface of this revolvable hub structure 94 to prevent water from the tub 24 from entering tub bearing assembly 80.
  • the clothes drum 95 also includes a perforate cylindrical side wall 104 carrying clothes elevating vanes 105.
  • Side wall 104 merges into the short front wall 106 and joins the flanged rear wall 96 in an overlapping relationship to form a protruding flange 168 which, while not touching wall 73, cooperates with that wall '73 to form an effective air barrier to prevent heated air entering tub 24 through cylindrical side 3 wall 71 during the drying operations from being short circuited around the rear peripheral edge of drum 95.
  • Tub 24 is connected at its lower portion with a drain pump 112 which communicates with an external drain for removing fluids from tub 24.
  • Tub 24 also includes a circular loading opening 117 which is encircled by the bellows seal 118 having its opposite end fastened to a similar opening formed in the cabinet 119 enclosing this combination unit.
  • Sealing member 118 includes a number of convolutions 1'20 permitting movement of tub 24 relative to cabinet 119.
  • a rectangular door 121 hinged on cabinet 119 carries a transparent glass door 122 having a cylindrical portion extending rearwardly through the bellows seal 118 which is provided with a flexible annular sealing lip 124 engageable with the periphery of the glass door 122. This seals the unit while enabling the operator of the machine to observe operations taking place within tub 24 during the washing and drying processes.
  • the lamp 126 fastened to the exterior of tub 24 shines through a transparent member 127 carried in tub 24 for illuminating the interior of the machine during the loading operations of the machine.
  • Tub 24 also includes a heater housing 131 which may be formed separately or as a part of the casing side wall and which supports a heating element (not shown) capable of radiating heat energy into tub or casing 24 through an opening located in the cylindrical tub wall 71 and covered by the heater housing 131.
  • Heater housing 131 also mounts the thermostat 133 which is connected in series with the heater.
  • the power to rotate the drum 95 through the large pulley 91 is applied by the two-speed motor 137 mounted on bracket 138 carried on a lower portion of tub 24.
  • the two-speed motor 137 is operable at a speed of approximately 1725 revolutions per minute when its four-pole run winding 135 is energized and operable at a speed of approximately 1150 revolutions per minute when its six-pole run Winding 136 is energized.
  • the output shaft of motor 137 is connected to a flexible universal coupling 139 which is connected in turn to the transmission input shaft 140 constituting an extension of the motor shaft.
  • a split pulley 141 having a pair of axially separable sheaves splined to each other is rigidly connected to shaft 140 through one of its sheaves.
  • the other sheave is constantly biased towards the shaft-connected sheave by means of the compression spring 142 which encircles the shaft extension 140.
  • This arrangement automatically regulates the tension in the small belt 144 which drives the drain pump 11-2 whenever motor 137 is energized.
  • Shaft extension 140 also drives the two-spaced transmission unit 145 and the pulley 146 aflixed to the end of that portion of shaft 140 extending completely through transmission 145.
  • Transmission 145 is provided with an output pulley 147 which is drivingly connected to the large drum drive pulley 91 through belt 148.
  • the drive system of the present embodiment may drive the clothes receptacle at four substantially constant speeds.
  • transmission 145 With solenoid 149 de-energized, transmission 145 is in the condition of maximum speed reduction for driving receptacle 95 at speeds of 75 revolutions per minute and 50 revolutions per minute corresponding to operation of motor 137 at speeds of 1725 revolutions per minute and 1150 revolutions per minute respectively.
  • transmission 145 Upon energization of solenoid 149, transmission 145 is operable for driving clothes receptacle 95 at extraction speeds of approximately 300 revolutions per minute and at approximately 450 revolutions per minute when motor 137 is operating at speeds of 1150 revolutions per minute and 1725 revolutions per minute respectively.
  • the pulley 146 aflixed to the end of shaft 140 is connected to the fan pulley 151 through belt 152 for driving 4 pulley 151 at a speed approximately equal to that of motor 137.
  • a combination transmission support and belt tensioning device is provided by the slotted bracket 158 which is connected to the rear wall 72 through the adjustable screws 159. Bracket 158 journals shaft allowing transmission unit to pivot freely around the bearing receiving that latter shaft.
  • the transmission unit 145 and its mounting bracket 158 may be moved away from the fan pulley 151 and the slack taken out of belt 152.
  • the slack is automatically taken out of the tumbler drive belt 148 by means of the compression spring 161 mounted between bracket 158 and the transmission unit 145 and tending to pivot the transmission 145 downwardly and in a clockwise direction around shaft 140.
  • the tension in the drain pump belt 144 is automatically maintained during these adjustments by means of the spring biased split pulley 141.
  • a conventional unbalance control system may be provided for controlling operation of the machine during the extraction op eration to eliminate the possibility of walking of the machine or damage thereto resulting from forces that may be generated during the extraction operation.
  • a combination blower condenser unit capable of moving air through tub 24, scrubbing lint, and condensing out moisture from hot vapors produced within casing 24 during the drying operations, is positioned in the compartment formed by and between portions of the spaced Walls 72 and 73.
  • the compartment for the blower condenser unit is proucked by cooperation of walls 7-2 and 73 with an imperforate scroll-shaped side wall 166 shown by dotted lines in FIGURE 1 which bridges the space between walls 72 and 73 to enclose the vapor condenser and blower unit.
  • Water is directed towards the impeller (not shown) and the action of the rotating impeller upon the stream of water produces a cool mist spray and fog for condensing out hot moisture vapors entering the blower condenser unit during the drying operation of this combination machine.
  • the impeller (not shown) positioned behind plate 163 is driven by blower pulley 151.
  • Plate 163 is bolted to the rear wall 72 of tub 24 and provides convenient access to the blower housing.
  • the water for the vapor condensing operation is supplied through the external conduit 172 and is directed into the condenser unit by conduit 171.
  • Water for the washing operation is supplied through the conduit 173 which empties into cup 174 provided with a flapper check valve 175 and draining into tub 24 between walls 73 and 74.
  • Flapper valve 175 not only prevents suds from escaping from tub 24 during the Washing operation but also prevents steamy vapors from escaping from the washing and drying chamber of tub 24 and condensing on the cooler interior surfaces of cabinet 119.
  • motor 137 and transmission 145 cooperate in the present embodiment to provide the tumbling velocity, a relatively low fluid extraction velocity, an intermediate extraction velocity, and a relatively high extraction velocity.
  • a range of receptacle velocities between the tumble velocity and the low extraction velocity, for distributing the fabrics in a substantially even pattern around the inner periphery of the Washing receptacle, is obtained by vmatically in FEGURE 3.
  • FIGURE 3 an electrical schematic diagram shows the components and circuitry of one embodiment for achieving the desired cycling.
  • the position of the switches and timer contacts in FIGURE 3 is shown in their position at a point in the cycle of operations near the end of a tumble operation and immediately prior to a distribution operation.
  • FIGURE 3 Provided across power lines L and L is conventional 110 volt 60 cycle alternating current for operating the electrical devices. Included in the electrical circuit of FIGURE 3 is the start winding 1% of conventional twospeed motor 137 in series connection with start capacitor 181. Start winding 181) is effectively connected across power lines L and L in a parallel relationship to tourpole run winding 135 and six-pole run Winding 136. In series with start winding 18% is centrifugal switch 183 for interruptting current to start winding 180 at a predetermined motor speed. Centrifugal switch 183 is linked with switch 184 for operating switch 184 from contact 1% to contact 186 upon opening of centrifugal switch 183. Switch 1554 is made to contact 185 during periods of energization of start Winding 130 for insuring energization of tour-pole run winding 135 during the starting operation.
  • Controls for pulsing or cycling energization of motor 137 between run windings 135 and 136 are shown sche-
  • An auxiliary timing means such as timing motor 1&9, is provided for advancing cams 19%, 191, and 192 to operate switches 194, 195, and 1% respectively.
  • Cam members 1%, 191, and 192 are provided with rises or lifts for operating the switches at predetermined time intervals.
  • Switch member 1% effects selective energization of run windings 13S and 1%.
  • Switch 194- is actuated to a first position by rises on cam 199 for completing a circuit to six-pole run winding 136 through contact 199 and is biased to a second position at locations of recesses in cam 19% for completing a circuit to four-pole run winding 135 through contact 1%.
  • Switch member 195 is biased to a first position for completing a circuit to contact member 2110 and is actuated by a rise 262 on cam 191 to a second position for completing a circuit to solenoid 149 through contact 2111.
  • Switch member 196 is a singlepole, single-throw switch, actuatable by cam member 192, for completing a circuit to timing motor 189 at predetermined positions in the cycle of operations to reset the pulsing system.
  • a conventional primary timing mechanism (not shown) having cam operated switches, for example, is provided for controlling sequential operation of the combination washer-drier through a predetermined series of operations.
  • the switches of the timer mechanism include contacts'203, 204, and 2515 for controlling operation of the pulsing system. Contacts 203, 2114 are closed during fluid extraction portions of the cycle of operations for energizing auxiliary timing motor 189. Motor 189 then drives cams 1911, 191, and 192 for cycling 7 energization of motor 137 between run winding 135 and run winding 136 to etfect a slowly accelerating distribution velocity at the beginning of or immediately prior to each fluid extraction operation.
  • Timer contacts 2114, 205 are closed during tumble operations for energizing timing motor 189 in series with reset switch 196 to return the pulsing system to its off or start position. Also included are contacts 2%, 2117 which are optionally actuatable to a closed position at selected times in the cycle of operations, either manually or by the timer mechanism, for completing a circuit to timing motor 189. When so actuated, timing motor 189 advances cam member 1% from rise 216 to recess 217 for allowing switch 194 to operate to the biased poistion to complete a circuit through contact 198 and energize run winding 135 for high speed spin operation.
  • This circuit including the auxiliary timing motor, cams and switches, comprises a motor pulsing system operable for effecting a slowly accelerating distribution speed by rapidly cycling energization of the two-speed motor between the two run windings.
  • This distribution speed operation follows tumble operations and precedes extraction operations and is initiated at these predetermined posi tions in the cycle of operations by the timer mechanism as explained hereinabove.
  • switch 194 is actuated to close a circuit to contact 199; switch 195 is biased to complete a circuit to contact 2%; switch 196 is biased to the open position; timer contacts 204, 265 are closed; and contacts 206, 2&7 are open. Also switch 184 is closed to contact 186.
  • the motor is thus operating at its slow speed and the receptacle is rotating at a tumble velocity.
  • timer contact 2114 is closed to contact 2113 for initiating the pulsing operation and thus the distribution operation.
  • auxiliary timing motor 1&9 is energized by a circuit between power lines L and L including line 210, switch 195 made to contact 2119, and timer contacts 2%, 2134.
  • cams 190, 1%1, and 192 are driven at a slow timing speed of 6 revolutions per minute, for example, for actuating switches 1%, 195, and 196 to control the pulsing operation.
  • switch 194 is cycled between its first actuated position made to contact 1519 and its second biased position made to contact 1%.
  • rises on cam 191i maintain switch 194- actuated to contact 1% for periods of approximately three-tenths of one second and recesses allow switch 1% to make to contact 1% for periods approximately two-tenths of one second.
  • Cam 1% proceeds to cycle switch 194 between its first position and its second position for a period of approximately 7 /2 seconds during which time the motor is alternately energized for acceleration to or operation at each of its two predetermined speeds.
  • Energization of motor 137 for acceleration towards its predetermined speed of 1150 revolutions per minute is accomplished by a circuit from L through line 2111, switch 194 made to contact 199, switch 134 made to contact 186, to one side of six-pole run winding 13%.
  • the other side of run winding 13 6 is connected to power line L through thermoprotector 212 and line 213.
  • Motor 137 is energized through its four-pole run winding 135 for acceleration towards 1725 revolutions per minute by a circuit from power line L through line 2111, switch 194 made to contact 198, and through line 215 to one side of fourpole run winding 1.35.
  • the other side of run winding 135 is connected to power line L through thermoprotector 212 and line 213.
  • the energization of motor 137 for operation at the first and second speeds for periods of two-tenths of one second and three-tenths of one second, respectively permits the motor to first acceleraterate an increment to a momentary higher speed and to deceleratc a smaller increment therefrom to a lower momentary speed for effecting a net increase.
  • Both acceleration and deceleration rates are dependent upon various factors including the loading within receptacle and voltage to the motor.
  • the two-tenths of one second and three-tenths of one second time increments of alternating energization are sufiicient and proper for achieving the desired slow acceleration of receptacle 95.
  • This time controlled pulsing of motor 137 will provide a period of slow acceleration from the motor operating speed of 1150 revolutions per minute toward the operating 'Z speed of 1725 revolutions per minute. These speeds correspond to clothes receptacle speeds of approximately 50 revolutions per minute and 75 revolutions per minute .when solenoid 149 is maintained in the de-encrgized condition.
  • recess 219 of cam 190 will allow operation of switch 194 to close to contact 198 for maintaining four pole run winding 135 energized for a period of approximately one-half second to insure operation of motor 137 at its upper operating speed of 1725 revolutions per minute for effecting rotation of drum 95 at 75 revolutions per minute prior to energizing spin solenoid 149 for the extraction operation.
  • rise 202 or" cam 191 Upon completion of the one-half second operation of motor 137 on four-pole energizatin, rise 202 or" cam 191 will eifect operation of switch 195 to open at contact 200 and close to contact 201. At substantially the same time, rise 216 of cam 190 will close switch 194 to contact 199. Opening of switch 195 at contact 200 will de-energize auxiliary timing motor 189 for terminating the pulsing operation. Closing of switch 194 to contact 199 will de-energize run winding 135 and energize run winding 136 for allowing motor 137 to decelerate from 1725 revolutions per minute to the lower speed of 1150 revolutions per minute.
  • Switch 195 Closing of switch 195 to contact 201 will complete a circuit to spin solenoid 149 for shifting transmission 145 to a high output speed condition and effecting an increase in receptacle speed from 75 revolutions per minute to 300 revolutions per minute for the extraction operation.
  • Spin solenoid 149 is energized by a circuit between power lines L and L which includes line 210, and switch 195 made to contact 201.
  • the high extraction speed of 450 revolutions per minute drum speed may be obtained by closing contacts 206, 207 for re-energizing advance motor 189 to advance cam 190 so that recess 217 permits switch 194 to open at contact 199 and close to contact 198. Opening of switch 194- at contact 199 will de-energize timing motor 189 and run winding 136. Switch 194 remains in its biased position as a result of recess 217 for completing a circuit through contact 198 to energize run winding 135 for motor operation at 1725 revolutions per minute.
  • the pulsing system is reset to the o or start position during the first tumble operation occurring after each distribution operation during which the pulsing system was operative.
  • Cam 192 maintains switch 196 closed during all positions of the pulsing system except at that position of recess 208 which corresponds to the off position.
  • timer contact 204 closes to 205 and completes a circuit for energizing timing motor 189.
  • the pulsing system including auxiliary cams 190, 191 and 192 is thereby advanced to the position at which recess 208 permits switch 196 to open and de-energize timing motor 189.
  • switch 194 is made to contact 199
  • switch 195 is made to contact 200
  • switch 196 is open.
  • operation of this invention for providing the desired speeds of operation including a slowly accelerating distribution speed is best understood by considering operation of the motor through a full sequence of operations.
  • switch 194 Upon initial energization of the machine for the first tumble portion of the cycle, switch 194 is in the position closed to contact 199 or is immediately actuated to that position by the automatic reset system explained hereinabove, centrifugal switch 183 is closed, and switch 184 is made to contact 185 for energizing start winding 180 and four-pole run winding 135 in a parallel relationship. With run winding 135 and start winding 180 energized, motor 137 will be accelerated at a rate depending upon variables including voltage across lines L and L and size of the load carried by receptacle 95.
  • centrifugal switch 183 will open to deenergize run winding 180 and to operate switch 184 to close to contact 186 for de-energizing four-pole run winding and energizing six-pole run winding 138.
  • Receptacle 95 is then driven for a predetermined period of time at a tumble speed of approximately 50 revolutions per minute with motor 137 energized through six-pole run winding 136 and operating at a speed of approximately 1150 revolutions per minute.
  • timer contact 20 2 is opened from contact 205 and closed to contact 203 for energizing auxiliary timing motor 189 by a circuit which includes switch 195 made to contact 200.
  • cam 190 is advanced at a slow timing speed.
  • Rises or lifts on cam 190 provide a timed switching program for operating switch member 194 between contacts 198 and 199 to maintain each of the run windings energized for predetermined periods of time necessary to cause motor 137 to have a net acceleration from its lower operating speed of 1150 revolutions per minute to its higher operating speed of 1725 revolutions per minute.
  • contact 206 is closed to 207 for re-energizing auxiliary motor 189 to advance cam to a position at which recess 217 allows switch 194 to operate for closing to contact 198, thus deenergizing auxiliary timing motor 189 and six-pole run winding 136 and energizing four-pole run winding 135 to drive receptacle 95 at the high spin speed of approximately 450 revolutions per minute.
  • the fluid extraction operation may include a series of distribution operations and extraction operations for best fluid extraction results.
  • the fluid extraction operation may, of course, be followed by an additional tumbling operation as in the combination washer-drier, with heat on for drying the fabrics.
  • the present invention provides a washing machine or combination washer-drier in which a slowly accelerating distribution speed is obtained by alternately energizing and de-energizing the two run windings of a two-speed motor.
  • This slowly accelerating distribution speed insures an optimum distribution speed for a wide range of sizes and conditions of clothes loads.
  • a fabric treating machine having receptacle means rotatable about a non-vertical axis and operable through a sequence of operations including tumble, distribution, and extraction operations
  • the combination comprising: drive means including an electric drive motor operable at a first speed and a second higher speed; said drive means being operable for rotating said receptacle means at a plurality of velocities including a tumble velocity and a relatively slow extraction velocity; means for energizing said motor for operation at said first speed for efiecting rotation of said receptacle at said tumble velocity; and
  • motor pulsing means operative during said distribution operation for energizing said motor alternately for acceleration toward said second speed and for deceleration toward said first speed at predetermined time intervals to efiect slow acceleration of said receptacle from said tumble velocity to said relatively slow extraction velocity.
  • a fabric treating machine having receptacle means rotatable about a non-vertical axis and operable through a sequence of operations including tumble, distribution, and extraction operations
  • the combination comprising: drive means including an electric drive motor operable at a first speed and a second higher speed; said drive means being operable for rotating said receptacle means at a plurality of velocities including a tumble velocity and a relatively slow extraction velocity; and circuit means including motor pulsing means operative during said distribution operation for cyclically energizing said motor for said second speed and said first speed to alternately effect an increment of speed change toward said second speed and to effect a smaller increment of speed change therefrom toward said first speed whereby said receptacle means is slowly accelerated from said tumble velocity to said relatively slow extraction velocity for distributing material contained therein.
  • a washing machine having receptacle means rotatable about a non-vertical axis and operable through a sequence of operations including tumble, distribution and extractor operations
  • the combination comprising: an electric drive motor operable at a first speed and at a second higher speed; transmission means driven by said motor operable for rotating said receptacle means at a plurality of velocities including a tumble velocity and a relatively low extraction velocity; and circuit means including pulsing means operative during said distribution operation, said pulsing means having switch means and timing means co'operable therewith for rapidly cycling energization of said motor to alternately effect an increment of acceleration toward said second speed and an increment of deceleration toward said first speed at predetermined intervals of time, said increments of acceleration and deceleration having a relationship of net acceleration to effect slow acceleration of said receptacle means from said tumble velocity to said relatively slow extraction velocity, said circuit means further having means for de-energizing said timing means and initiating said extraction operation upon completion of said distribution operation.
  • a washing machine having receptacle means rotatable about a non-vertical axis and operable through a sequence of operations including tumble, distribution and extraction operations
  • the combination comprising: an electric drive motor having a first run winding and a second run winding individually energizable for accelerating said motor to a first speed and to a second higher speed; transmission means driven by said motor operable for rotating said receptacle means at a plurality of velocities including a tumble velocity and a relatively slow extraction velocity; and circuit means for energizing said first run winding and operating said motor at said first speed to effect rotation of said receptacle at said tumble velocity, said circuit means having pulsing means operative during at least one predetermined portion of said sequence of operations and including means for cyclically energizing said motor between said first run winding and said second run winding for relatively short predetermined intervals of time, said motor being responsive to said cyclical energization for efiecting a speed change toward said
  • circuit means further includes means for deenergizing said pulsing means and initiating said extraction operation after a predetermined time duration comprising said distribution operation.
  • a washing machine operable through a cycle of operations including tumble, distribution, and extraction operations and having a receptacle rotatable about a non-vertical axis
  • the combination comprising: primary timing means for controlling said washing machine through said series of operations; an electric drive motor having first and second run windings individually energizable for selective operation of said motor for acceleration to and operation at a first speed and a second higher speed; transmission means driven by said motor and selectively operable for rotating said receptacle at a plurality of substantially constant velocities including a tumble velocity and at least one extraction velocity; transmission control means optionally energizable for actuating said transmission means to vary output velocity thereof; first circuit means having first switch means operable to a first position for energizing said first run winding and operable to a second position for energizing said second run winding; second circuit means including second switch means and auxiliary timing means, said second circuit means being energizable by said primary timing means for initiating said
  • a washing machine operable through a cycle of operations including tumble, distribution, and extraction operations and having a receptacle rotatable about a non-vertical axis
  • the combination comprising: primary timing means for controlling said washing machine through said series of operations; an electric drive motor having first and second run windings individually energizable for selective operation of said motor for acceleration to and operation at a first speed and a second higher speed; triansmission means driven by said motor for rotating said receptacle at a plurality of substantially constant velocities including a low tumble velocity, a low extraction velocity and a plurality of higher extraction velocities; transmission control means optionally energizable for actuating said transmission means to deliver said higher extraction velocities; first circuit means having first switch means operable to a first position for energizing said first run winding and operable to a second position for energizing said second run winding, said first switch means being maintained in said first position during said tumble operation for energizing

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  • Textile Engineering (AREA)
  • Control Of Washing Machine And Dryer (AREA)
US293772A 1963-07-09 1963-07-09 Fabric treating machine with drive means to effect a tumble, distribution and extraction operation Expired - Lifetime US3172278A (en)

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US293772A US3172278A (en) 1963-07-09 1963-07-09 Fabric treating machine with drive means to effect a tumble, distribution and extraction operation
FR980996A FR1418870A (fr) 1963-07-09 1964-07-07 Dispositif de commande pour machines à laver

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US293772A US3172278A (en) 1963-07-09 1963-07-09 Fabric treating machine with drive means to effect a tumble, distribution and extraction operation
US293771A US3172277A (en) 1963-07-09 1963-07-09 Clothes washing machine with control means for providing a varying speed tumble operation
FR980996A FR1418870A (fr) 1963-07-09 1964-07-07 Dispositif de commande pour machines à laver

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3311237A (en) * 1966-05-31 1967-03-28 Maytag Co Fluid extractor speed control
US3324689A (en) * 1965-08-17 1967-06-13 Maytag Co Laundry apparatus
US3339732A (en) * 1966-05-31 1967-09-05 Maytag Co Centrifugal fluid extraction
US20060191156A1 (en) * 2002-04-30 2006-08-31 Alan Heinzen Canted manually loaded produce dryer
US20110232698A1 (en) * 2008-12-12 2011-09-29 BSH Bosch und Siemens Hausgeräte GmbH Washing machine
US20120060350A1 (en) * 2009-05-28 2012-03-15 Kwon Ig Geun Manufacturing method of laundry machine

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE58905044D1 (de) * 1988-11-14 1993-09-02 Miele & Cie Waschverfahren fuer eine programmgesteuerte trommelwaschmaschine.
FR2640289B1 (fr) * 1988-12-09 1991-09-20 Ciapem Procede de lavage du linge et lave-linge mettant en oeuvre ce procede
IT1230903B (it) * 1989-06-23 1991-11-08 Pierino Vellati Procedimento e macchina per il lavaggio e/o l'asciugatura di manufatti tessili.
JPH08299658A (ja) * 1995-05-12 1996-11-19 Toshiba Corp ドラム式洗濯機

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US2760639A (en) * 1951-06-14 1956-08-28 Avco Mfg Corp Method of washing and drying textiles
US2881633A (en) * 1956-07-19 1959-04-14 Gen Electric Combination washer-dryer drive mechanism
GB829292A (en) * 1955-05-26 1960-03-02 Murray Corp Machine for completely laundering fabrics
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US1477862A (en) * 1922-09-05 1923-12-18 Allis Louis Co Speed controller
US2760639A (en) * 1951-06-14 1956-08-28 Avco Mfg Corp Method of washing and drying textiles
GB829292A (en) * 1955-05-26 1960-03-02 Murray Corp Machine for completely laundering fabrics
US2881633A (en) * 1956-07-19 1959-04-14 Gen Electric Combination washer-dryer drive mechanism
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US3324689A (en) * 1965-08-17 1967-06-13 Maytag Co Laundry apparatus
US3311237A (en) * 1966-05-31 1967-03-28 Maytag Co Fluid extractor speed control
US3339732A (en) * 1966-05-31 1967-09-05 Maytag Co Centrifugal fluid extraction
US20060191156A1 (en) * 2002-04-30 2006-08-31 Alan Heinzen Canted manually loaded produce dryer
US20110232698A1 (en) * 2008-12-12 2011-09-29 BSH Bosch und Siemens Hausgeräte GmbH Washing machine
US9127393B2 (en) * 2008-12-12 2015-09-08 BSH Hausgeräte GmbH Washing machine
US20120060350A1 (en) * 2009-05-28 2012-03-15 Kwon Ig Geun Manufacturing method of laundry machine
US8782871B2 (en) * 2009-05-28 2014-07-22 Lg Electronics Inc. Manufacturing method of laundry machine

Also Published As

Publication number Publication date
FR1418870A (fr) 1965-11-26

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