US1742616A - Driving mechanism for washing machines - Google Patents

Driving mechanism for washing machines Download PDF

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Publication number
US1742616A
US1742616A US145535A US14553526A US1742616A US 1742616 A US1742616 A US 1742616A US 145535 A US145535 A US 145535A US 14553526 A US14553526 A US 14553526A US 1742616 A US1742616 A US 1742616A
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United States
Prior art keywords
shaft
pinion
gear
impeller
rocker arm
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Expired - Lifetime
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US145535A
Inventor
Frank B Schuyler
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JOHNSON WASHER Co
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JOHNSON WASHER Co
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Priority to US145535A priority Critical patent/US1742616A/en
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Publication of US1742616A publication Critical patent/US1742616A/en
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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
    • D06F13/00Washing machines having receptacles, stationary for washing purposes, with agitators therein contacting the articles being washed 
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • Y10T74/18184Crank, pitman, and lever
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18416Rotary to alternating rotary
    • Y10T74/18488Oscillating rack connections

Definitions

  • the object of the present invention is to generally improve and simplify the construction and operation of washing machines of the impeller type and to provide an impeller type of washer which will permit proper and efiicient handling of all fabrics or clothes from the coarsest to the most delicateby pro viding means whereby the velocity of the water and movement of the clothes may be regulated so that injury or excess .wear on the fabric is prevented.
  • the invention more specifically stated, embodies in combination with an impeller and its driving shaft, a. gear pinion secured on the shaft, a pair of rack bars disposed one on each side of the pinion, a pivotally mounted rocker arm supporting the rack-bars, means for transmitting an oscillating movement to the rocker arm and the rack bars, and means whereby one or another of the rack bars may be moved into or out of en gagement with the pinion so that the peripheral velocity of the impeller may be increased or decreased.
  • Figure 1 is a central vertical sectlon of the washing machine.
  • Figure 2 is a horizontal section taken on the line IIII of Figure 1.
  • Figure 3 is a plan View of the notched segment 20 and the operating lever 19.
  • A indicates a tub of suitable construction
  • B a frame supporting the same
  • C an impeller
  • D the driving shaft whereby an oscillating movement is transmitted to the impeller
  • E indicates, in general, a driving mechanism whereby the driving shaft and the impeller are actuated.
  • the tub is, in this instance,.
  • connection as indicated at 4. This connection secures the members with relation to each other and also forms a water-tight connection, which prevents leakage from the tub.
  • the driving shaft extends through the upper end of the tube and is provided with a flattened or polygonal extension 5 whereby a driving connection is formed between the shaft and the impeller, that is, the impeller is provided with an upwardly extending tubular extension 6 and the extreme upper end thereof is provided with a socket for the reception of the driving extension 5.
  • This type'of connection is of further importance as it permits endwise movement of the impeller when drying out the tub, cleaning the same or otherwise.
  • the driving mechanism generally indicated at E is enclosed in a housingconsisting of a base section 7 and a cover section 8, the cover section being, in this instance, a part of the bearing bracket 3, as it is formed integral therewith.
  • the driving shaft extends through the housing section 8 and it is journaled therein, as at 9.- It also extends downwardly into the housing section 7 and the lower end is journaled in a bearing member 10.
  • This excentric forms a pivotal support for the rocker arm 14, previously referred to.
  • the upper end of the shaft is provided with an operating lever 19 which is adapted to be swung over a notched segment 20.
  • the lever serves the UED function of rotating the shaft 17 and the excentric 12 secured on the lower end thereof and it may be rotated through an arc of 180.
  • the segment in the upper end of this shaft is provided with three notches.
  • the operating lever engages the notch 21 when the excentric assumes the position shown in Figure 2. It engages the opposite notch 22 when the excentric is rotated 180 and it engages the intermediate notch 23 When .a neutral position is to be assumed, as will hereinafter be described.
  • the mechanism employed is exceedingly simple and easy to operate.
  • the housing enclosing the driving mechanism is tight and as such may be packed with grease or any other suitable lubricant, thereby eliminating constant attention and lubricating troubles.
  • a driving shaft an impeller on the shaft, a gear pinion secured to the shaft, a rocker arm, a pivotal support for one end of the arm, a pair of gear racks on the swinging end of the arm and disposed one on each side of the gear pinion, means whereby an endwise movement is imparted to the rocker arm and the gear racks carried thereb so as to move one or another of the rack ars into mesh with the Similarly that varigear pinion, and means for transmitting an oscillating movement to the rocker arm and the gear racks.
  • a driving shaft an impeller on the shaft, a gear pinion secured on the shaft, a rocker arm, an excentric member forming a pivotal support for one end of the arm, a pair of gear racks mounted on the swinging end of the arm and disposed one on each side of the gear pinion, means for rotating the excentric so as to impart an endwise movement tothe rocker arm, and thereby bringing one or another of the gear racks into mesh with the gear pinion, and means for transmitting an oscillating movement to the rocker arm and the gear racks.
  • a driving shaft an impeller on the shaft, a gear pinion secured on the shaft, a rocker arm, an excentric member forming a pivotal support for one end of the arm, a pair of gear racks mounted on the swinging end of the arm and disposed one on each side of the gear pinion, means for rotating the excentrio so as to impart an endwise movement to the rocker arm and thereby bring one or another of the gear racks into mesh with the gear pinion, means for securing the excentric against movement when one or another of the gear racks is moved into mesh, and means for transmitting an oscillating movement to the rocker arm and the gear racks.
  • an impeller on the shaft a plurality of re ciprocating driving members adapted to oscillate the shaft at different speeds and means for selecting and connecting any one of the driving members with the shaft and for maintaining the other driving member out of engagement with the shaft.
  • a driving shaft a driving shaft, an impeller on the shaft, a plurality of reciprocating driving members adapted to oscillate the shaft at diflerent speeds and means for selecting and connecting any one of the driving members with the shaft and for maintaining the other driving member out of engagement with the shaft, said means also adapted to maintain all the driving members out of engagement with the shaft.
  • a washing machine a driving shaft, an impeller on the shaft, a gear pinion on the shaft, a plurality of rack bars, means whereby an endwise movement back and forth is transmitted to the rack bars, and
  • a driving shaft an impeller on the shaft, a gear pinion secured on the shaft, a rocker arm, an eccentric member forming a pivotal support for one end of the arm, a pair of gear racks mounted on the swinging end of the arm, and disposed one on each side of the gear pinion, means for rotating the eccentric so as 'to impart an endwise movement to the rocker arm and thereby bring one or the other of the gear racks into mesh with the gear pinion, means for securing the eccentric against movement when one or another of the gear racks is moved into mesh with the pinion, or when both racks are out of mesh and means for transmitting an oscillating movement to the rocker arm and the gear racks.

Description

Jan.7, 1930. F. B. SCHUYLER DRIVING MECHANISM FOR WASHING MACHINES Original Filed Nov. 1, 1926 2 Sheets-Sheet l INVENTOR. r/eA/wr s. SCHUYLER.
r TTORNEYS.
Jan. 7, 1930. F. B. SCHUYLE R DRIVING MECHANISM FOR WASHING MACHINES Original Filed Nov. 1, 19 26 2 Sheets-Sheet FRANK B k.
Z ATTORNEYS.
Patented Jan. 7, 1930 UNITED, STATES PATENT OFFICE FRANK B. SCHUYI-ER, OF BERKELEY, CALIFORNIA, ASSIGNOR, BY MESNE -ASSIGN- MENTS, TO THE JOHNSON WASHER COMPANY, A CORPORATION OF CALIFORNIA DRIVING MECHANISM FOR WASHING MACHINES HE Application filed November 1, 1926, Serial No. 145,535. Renewed June 20, 1928.
Ii peller.
The object of the present invention is to generally improve and simplify the construction and operation of washing machines of the impeller type and to provide an impeller type of washer which will permit proper and efiicient handling of all fabrics or clothes from the coarsest to the most delicateby pro viding means whereby the velocity of the water and movement of the clothes may be regulated so that injury or excess .wear on the fabric is prevented.
The invention more specifically stated, embodies in combination with an impeller and its driving shaft, a. gear pinion secured on the shaft, a pair of rack bars disposed one on each side of the pinion, a pivotally mounted rocker arm supporting the rack-bars, means for transmitting an oscillating movement to the rocker arm and the rack bars, and means whereby one or another of the rack bars may be moved into or out of en gagement with the pinion so that the peripheral velocity of the impeller may be increased or decreased.
One form which the invention may assume is shown by way of illustration inthe ac co'mpanying drawings, in which:
Figure 1 is a central vertical sectlon of the washing machine. a
Figure 2 is a horizontal section taken on the line IIII of Figure 1.
Figure 3 is a plan View of the notched segment 20 and the operating lever 19.
Referring to the drawings, in detail and particularly to Figures 1 and 2, A indicates a tub of suitable construction, B a frame supporting the same, C an impeller, D the driving shaft whereby an oscillating movement is transmitted to the impeller and E indicates, in general, a driving mechanism whereby the driving shaft and the impeller are actuated. The tub is, in this instance,.
connection, as indicated at 4. This connection secures the members with relation to each other and also forms a water-tight connection, which prevents leakage from the tub.
The driving shaft extends through the upper end of the tube and is provided with a flattened or polygonal extension 5 whereby a driving connection is formed between the shaft and the impeller, that is, the impeller is provided with an upwardly extending tubular extension 6 and the extreme upper end thereof is provided with a socket for the reception of the driving extension 5. This type'of connection is of further importance as it permits endwise movement of the impeller when drying out the tub, cleaning the same or otherwise.
The driving mechanism generally indicated at E is enclosed in a housingconsisting of a base section 7 and a cover section 8, the cover section being, in this instance, a part of the bearing bracket 3, as it is formed integral therewith. -The driving shaft extends through the housing section 8 and it is journaled therein, as at 9.- It also extends downwardly into the housing section 7 and the lower end is journaled in a bearing member 10.
Keyed or otherwise secured on the driving shaft intermediate the bearing members 9 and 10 is a gear pinion 11 and pivotally mounted as at 12 in a lateral extension of the housing indicated at 13, is a rocker arm 14 and formed on the swinging end of the rocker arm are a pair of interspaced gear racks 15 and 16. These racks are disposed on opposite sides of the gear pinion 11 and in the same plane and means are provided whereby either rack may be moved into mesh with the pinion. This is accomplished, as follows Extending down one side of the tub is a shaft 17. The lower end of this shaft extends through the housing sections 7 and 8 and is journaled therein, as indicated at 18. Secured on the shaft intermediate the bearing members is an excentric 12. This excentric forms a pivotal support for the rocker arm 14, previously referred to. The upper end of the shaft is provided with an operating lever 19 which is adapted to be swung over a notched segment 20. The lever serves the UED function of rotating the shaft 17 and the excentric 12 secured on the lower end thereof and it may be rotated through an arc of 180. The segment in the upper end of this shaft is provided with three notches. The operating lever engages the notch 21 when the excentric assumes the position shown in Figure 2. It engages the opposite notch 22 when the excentric is rotated 180 and it engages the intermediate notch 23 When .a neutral position is to be assumed, as will hereinafter be described.
Endwise movement is imparted to the rocker arm 14 and the gear racks 15 and 16 carried thereby during rotary movement of the excentric. V the position shown in Figure 2,the gear rack 16 will intermeshwith the pinion 11. When the excentric is turned 180, endwise movement is imparted to the rocker arm causing the gear segment 15 to move into engagement with the pinion and when the excentric assumes an intermediate position, neither rack will engage the pinion and the neutral position referred to is, accordingly, resumed.
An oscillating movement is imparted to the rocker arm and the gear racks carried thereby, when the washing machine is in operation and this movement is transmitted as follows J ournaled in one end of'the housing members 7 and 8 is a shaft 25. Secured on the shaft is a worm gear 26 and carried by the worm gear is a crank pin 27. Similarly mounted on the rocker arm 14 is a crank pin 28 and connecting the pins 27 and 28 is a connecting rod 29. Journaled in one side of the housing is a primary driving shaft 30. Secured thereon and meshing with the worm gear 26 is a worm pinion 31. The primary driving shaft is connected in any suitable manner with an electric motor or the like indicated at 32. Hence, when the mot-3r is in operation, the shaft 30 will be rotated and this rotary movement will be transmitted through the gears 26 and 31 to oscillate the rocker arm 14 through means of the pins 27 and 28 and the connecting rod 29.
If the gear racks assume a neutral position, no movement will be transmitted to the pinion, but if either rack is moved into mesh within the pinion, an oscillating movement will be transmitted to the pinion, the driving shaft and the impeller and the Washing machine will be in operation. The peripheral speed or Velocity of the impeller will be the least when engagement is made with the gear rack 16 and will be considerably increased when the pinion meshes with the gear rack 15.
Eflicient handling of all fabrics or clothes from the coarsest to the most delicate is thereby taken care of, as the velocity of the water and the movement of the clothes may be changed by increasing or decreasing the When the excentric assumes velocity of the impeller as already described.
The mechanism employed is exceedingly simple and easy to operate. The housing enclosing the driving mechanism is tight and as such may be packed with grease or any other suitable lubricant, thereby eliminating constant attention and lubricating troubles.
Leakage of water from the tub is prevented, removal of the impeller is permitted and ready control is maintained at all times, as the speed of the impeller is regulated by the controlling lever, which may be swung from one notch to another as the operator may desire. Y
While certain features of the present invention are more or less specifically described, I wish it understood that various changes may be resorted to within the scope of the appended claims. ous materials and finishes of the several parts employed may be such as the manufacturer may decide or varying conditions or uses may demand.
Having thus described my invention, what I claim and desire to secure by Letters Patent 1s y 1. In a washing machine, a driving shaft, an impeller on the shaft, a gear pinion on the shaft, a pair of rack bars, one on each side of the pinion, means whereby an endwise movement back and forth is transmitted to the rack bars, and means whereby either rack bar may be moved into or out of mesh with the pinion.
/ an impeller on the shaft, a gear pinion se-' cured to the shaft, a rocker arm, a pivotal support for one end of the arm, a pair of gear racks on the swinging end of the arm and disposed one on each side of the gear pinion, means whereby either rack bar may be moved into or out of mesh with the gear pinion, and means for transmitting an oscillating movement to the rocker arm and the gear racks. I
4. In a washing machine, a driving shaft, an impeller on the shaft, a gear pinion secured to the shaft, a rocker arm, a pivotal support for one end of the arm, a pair of gear racks on the swinging end of the arm and disposed one on each side of the gear pinion, means whereby an endwise movement is imparted to the rocker arm and the gear racks carried thereb so as to move one or another of the rack ars into mesh with the Similarly that varigear pinion, and means for transmitting an oscillating movement to the rocker arm and the gear racks.
5. In awashing machine, a driving shaft, an impeller on the shaft, a gear pinion secured on the shaft, a rocker arm, an excentric member forming a pivotal support for one end of the arm, a pair of gear racks mounted on the swinging end of the arm and disposed one on each side of the gear pinion, means for rotating the excentric so as to impart an endwise movement tothe rocker arm, and thereby bringing one or another of the gear racks into mesh with the gear pinion, and means for transmitting an oscillating movement to the rocker arm and the gear racks. f
6. In a washing machine, a driving shaft, an impeller on the shaft, a gear pinion secured on the shaft, a rocker arm, an excentric member forming a pivotal support for one end of the arm, a pair of gear racks mounted on the swinging end of the arm and disposed one on each side of the gear pinion, means for rotating the excentrio so as to impart an endwise movement to the rocker arm and thereby bring one or another of the gear racks into mesh with the gear pinion, means for securing the excentric against movement when one or another of the gear racks is moved into mesh, and means for transmitting an oscillating movement to the rocker arm and the gear racks.
7. In a washing machine, a driving shaft, I
an impeller on the shaft, a plurality of re ciprocating driving members adapted to oscillate the shaft at different speeds and means for selecting and connecting any one of the driving members with the shaft and for maintaining the other driving member out of engagement with the shaft.
8. In a washing machine, a driving shaft, an impeller on the shaft, a plurality of reciprocating driving members adapted to oscillate the shaft at diflerent speeds and means for selecting and connecting any one of the driving members with the shaft and for maintaining the other driving member out of engagement with the shaft, said means also adapted to maintain all the driving members out of engagement with the shaft.
9. In a washing machine a driving shaft, an impeller on the shaft, a gear pinion on the shaft, a plurality of rack bars, means whereby an endwise movement back and forth is transmitted to the rack bars, and
means whereby one of the rack bars may be moved into or out of engagement with the pinion, said means also adapted to maintain all of the rack bars out of engagement with the pinion.
10. In a washing machine a driving shaft, an impeller on the shaft, a gear pinion secured on the shaft, a rocker arm, an eccentric member forming a pivotal support for one end of the arm, a pair of gear racks mounted on the swinging end of the arm, and disposed one on each side of the gear pinion, means for rotating the eccentric so as 'to impart an endwise movement to the rocker arm and thereby bring one or the other of the gear racks into mesh with the gear pinion, means for securing the eccentric against movement when one or another of the gear racks is moved into mesh with the pinion, or when both racks are out of mesh and means for transmitting an oscillating movement to the rocker arm and the gear racks. v p
FRANK B. SOHUYLER.
US145535A 1926-11-01 1926-11-01 Driving mechanism for washing machines Expired - Lifetime US1742616A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE742076C (en) * 1942-05-06 1943-11-22 Carl Dietrich Drive for friction washing machines

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE742076C (en) * 1942-05-06 1943-11-22 Carl Dietrich Drive for friction washing machines

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