|Numéro de publication||USRE32973 E|
|Type de publication||Octroi|
|Numéro de demande||US 07/053,152|
|Date de publication||4 juil. 1989|
|Date de dépôt||21 mai 1987|
|Date de priorité||25 janv. 1985|
|État de paiement des frais||Payé|
|Numéro de publication||053152, 07053152, US RE32973 E, US RE32973E, US-E-RE32973, USRE32973 E, USRE32973E|
|Inventeurs||James S. Panzarella|
|Cessionnaire d'origine||The Quaker Oats Company|
|Exporter la citation||BiBTeX, EndNote, RefMan|
|Citations de brevets (6), Référencé par (35), Classifications (7), Événements juridiques (4)|
|Liens externes: USPTO, Cession USPTO, Espacenet|
1. Field of the Invention
This invention relates generally to toys, and more particularly to a toy bubble-blowing lawn mower.
2. Description of the Prior Art
It is known in the art to use bubble making apparatus in a toy as shown in Treuthart U.S. Pat. No. 2,579,714; Baggott U.S. Pat. No. 2,675,641; Ellman U.S. Pat. No. 3,008,263; Corbett U.S. Pat. No. 3,913,260; and Constance U.S. Pat. No. 4,016,673. The use of a turbine coupled to a rotating bubble, wheel is shown in Saachy U.S. Pat. No. 2,452,794; Bart U.S. Pat. No. 4,423,565; and Scott Canadian Pat. No. 487,368. A unidirectional gear drive for an impeller is shown in Hopkins U.S. Pat. No. 2,974,438. An intermittent motion mechanism is shown in Mehlfelder U.S. Pat. No. 1,225,151.
In accordance with a preferred embodiment of the invention, a toy bubble-blowing lawn mower is disclosed comprising a lawn mower body supported for back and forth movement of wheels. A propeller is mounted for rotation of the body, and is enclosed by a housing having a first opening through which a continuous stream of air is directed upon rotation of the propeller. A reservoir is formed in the body below the stream of air for receiving a bubble-forming liquid. A bubble disk is mounted on the body for rotation in a first plane normal to the stream of air with a portion of the disk immersed in the bubble-forming liquid. The disk further has a plurality of radially and equi-angularly spaced apertures adapted to pass through the liquid in succession upon rotation of the bubble disk to form liquid films across the apertures. An impeller having a cam is rotatably mounted on the body, and is coupled by means to the propeller for unidirectionally rotating the propeller during rotation of the impeller in either direction. The impeller is further coupled by means to one of the wheels such that rotation of the wheel is one direction rotates the impeller in one direction, and rotation of the wheel in the opposite direction rotates the impeller in the opposite direction. Means are also provided for intermittently coupling the impeller cam to the bubble disk for intermittently advancing the disk in one direction of rotation upon rotation of the impeller in one direction, and in the opposite direction of rotation upon rotation of the impeller in the opposite direction. The film covered apertures in the disk are intermittently and succesively positioned into alignment with a stream or air which blows the liquid film into bubbles.
In another aspect of the invention, the impeller has a gear and the propeller has a pinion. The means coupling the impeller to the propeller comprises a doublet gear moveable along an arcuate path. The doublet gear has a pinion in constant meshing engagement with the impeller gear, and a drive gear moveable into driving engagement with the propeller pinion upon rotational movement of the impeller in one direction, and out of driving engagement with the impeller gear upon rotational movement of the impeller in the opposite direction.
In a further aspect of the invention, the wheel is secured to a shaft. The means for coupling the wheel to the impeller comprises a pulley on the shaft, a pulley on the impeller, and a belt coupling the pulleys together.
In another aspect of the invention, the impeller is cylindrical and the impeller cam is V-shaped and mounted on the periphery of the impeller. The impeller has an annular peripheral ring in alignment with the apex of the cam. The ring has a notch in register with the impeller cam of a width substantially equal to the width of the cam. The bubble disk has a shaft at right angles to the impeller and substantially in alignment with the impeller cam. The shaft has a plurality of radially and angularly spaced, axially extending cam followers engageable in succession by the impeller cam upon rotation of the impeller in either direction of rotation.
In a more specific aspect of the invention, the lawn mower body has a spout connected to the reservoir through which a bubble-forming liquid can be poured into the reservoir. The body further has a second opening in alignment with the air emitting first opening and one of the disk apertures such that bubbles blown from the aperture are emitted through the second opening.
One of the primary advantages of this invention is to provide a toy bubble-blowing lawn mower that simulates to a certain degree a lawn mower of the type used by adults. The noise produced by the inertia propeller simulates a lawn mower internal combustion engine, and the emitted bubbles simulate the exhaust emission of the engine.
The invention and its advantages will become more apparent from the detailed description of the invention presented below.
In the detailed description of the invention presented below, reference is made to the accompanying drawings, in which:
FIG. 1 is a side elevational view of the toy bubble-blowing lawn mower of this invention;
FIG. 2 is an enlarged, segmental bottom view of the toy lawn mower of FIG. 1 with the bottom body cover removed; and
FIG. 3 is a partial section view taken substantially along line 3--3 of FIG. 1 with portions of the lawn mower omitted for purposes of clarity.
Referring now to FIG. 1 of the drawings, the toy bubble-blowing lawn mower 10 of this invention comprises a body 12 simulating a push-type lawn mower. The body 12 encloses a bubble-blowing mechanism, to be described hereinafter, and also rotatably supports a pair of axles 14 to which wheels 16 are rigidly secured. The toy lawn mower 10 further has a handle 18 pivotally secured to body 12 by which the lawn mower is pushed or pulled by a child.
Referring to FIGS. 2 and 3, the bubble-blowing mechanism comprises a vertically oriented impeller 20 having a stub shafts 22 at the ends thereof journalled for rotation in top and bottom portions of body 12.
The means or mechanism for rotatably driving impeller 20 in either direction of rotation comprises a V-shaped pulley 24 secured to one of the axles 14, a V-shaped annular groove forming another pulley 26 adjacent one end of impeller 20, and an endless stretchable belt 28 of circular cross-section interconnecting the pulleys. Accordingly, back or forth movement of lawn mover 10 by a child rotates wheels 16 and axles 14 in one direction or the other. This, in turn, imparts rotational movement to impeller 20 in either direction of rotation.
The means for producing a continuous stream of air for bubble-blowing comprises a vaned propeller 30 rotatably mounted within a body housing 32 on a fixed vertical shaft 34, the ends of which are secured to body 12. The propeller 30 is unidirectionally driven by a gear train comprising a pinion 36 on shaft 34, a ring gear 38 on impeller 20, and a unitary doublet gear 40 interposed therebetween. The doublet gear 40 is vertically oriented and has stub shafts 42 and the ends thereof, only one of which is shown, moveable within grooves 44. The doublet gear 40 has a pinion 46 in constant meshing engagement with impeller gear 38, and a larger diameter coaxial gear 48 engageable with propeller pinion 36. Rotation of impeller 20 in one direction causes doublet gear 40 to move to a propeller-engaging position in which gear 48 meshes with propeller pinion 36 and drives propeller 30 in one direction of rotation. Rotation of impeller 20 in the opposite direction causes doublet gear 40 to move to a propeller-disengaged position in which gear 48 is disengaged from propeller pinion 36. Accordingly, propeller 30 is rotatably driven in one direction only, and is provided with sufficient weight to function as an inertia propeller so that it continues to rotate for a length of time after the drive force from impeller 20 is removed.
The propeller housing 23 has a peripheral opening 50 communicating with a passage in a manifold 52 mounted in body 12. The passage ends in an opening 54 through which a continuous stream of air is directed upon rotation of propeller 30.
Means are also provided for successively moving films of bubble-forming liquid into alignment with the stream of air to blow bubbles. The means comprises a disk-shaped bubble disk 56 having a plurality of radially and equi-angularly spaced apertures 58. The disk 56 has a large diameter integral central shaft 60 having axle portions 62 journaled for rotation in body 12.
The body also forms a semi-cylindrical reservoir 64 (FIG. 3) for receiving a bubble-forming liquid, not shown, into which a lower portion of disk 56 is immersed. Any suitable bubble-forming liquid, such as a soapy solution, for example, is introduced into reservoir 64 through a spout 66 formed by body 12, as best seen in FIG. 3. Upon rotation of disk 56, apertures 58 passing through the liquid are covered by a film of bubble-forming liquid. When each film covered aperture 58 is moved into alignment with the stream of air, bubbles are blown from the aperture and through an opening 68 (FIG. 1) in the body into the atmosphere.
The means for indexing bubble disks 56 in one direction or the other to position and hold an aperture 58 in alignment with the stream of air will now be described. The indexing means comprises a V-shaped cam 69 mounted on the periphery of impeller 38. An end of disk shaft 60 has a face plate 70 facing impeller 20 which is provided with four radially and equi-angularly spaced cam follower pins 72 axially extending toward impeller 20 in almost abutting relation. The pins 72 are arranged in relation to cam 69 such that upon each revolution of impeller 20, cam 69 engages a pin 72 and rotates it along with disk 56 a predetermined distance to place a succeeding film covered aperture 58 into alignment with the air stream. The disk 56 is held in the aligned position by an annular ring 74 on the impeller 20 substantially in alignment with the apex of cam 69. The ring 74 has a groove 76 in register with cam 69 and of substantially the same width as the cam to allow clearance room for a pin 72 as it is cammed through its predetermined angle. Following the camming action, ring 74 is in abutting relation with oppositely disposed pin 72 to prevent futher rotation of the pins and disk 56 until the next camming action.
In operation of the invention, movement of the toy lawn mower 10 in a forward direction causes rear wheels 16 to drive impeller 20 which, in turn, drives propeller 30 for generating a stream of air. Rotation of impeller 20 also causes cam 69 to index cam follower pins 72 and bubble disk 56 through a predetermined angle once for each revolution of impeller 20 to position the next succeeding film covered aperture 58 in alignment with the air stream. As this occurs, the air stream blows the film to form bubbles which are blown through body opening 68.
While a preferred embodiment of the invention has been shown and described with particularity, it will be appreciated that various changes and modifications may suggest themselves to one having ordinary skill in the art upon being apprised of the present invention. It is intended to encompass all such changes and modifications as fall within the scope and spirit of the appended claims.
|Brevet cité||Date de dépôt||Date de publication||Déposant||Titre|
|US1031764 *||17 août 1911||9 juil. 1912||Edward W Klapheke||Mechanical movement.|
|US2579714 *||14 juin 1949||25 déc. 1951||Treuthart Robert L||Mechanical bubble blowing device|
|US2675641 *||1 juin 1951||20 avr. 1954||Ideal Toy Corp||Bubble emitting toy locomotive|
|US3100947 *||29 déc. 1960||20 août 1963||Hellman Werner F||Toy for forming a continuous stream of bubbles|
|US4016673 *||19 mai 1975||12 avr. 1977||Chris Constance||Bubble pull toy|
|CA542579A *||25 juin 1957||Norman A Fisher||Bubble blowing machine|
|Brevet citant||Date de dépôt||Date de publication||Déposant||Titre|
|US5876995 *||25 nov. 1996||2 mars 1999||Bryan; Bruce||Bioluminescent novelty items|
|US6113886||22 nov. 1999||5 sept. 2000||Bruce Bryan||Bioluminescent novelty items|
|US6152358||17 août 1998||28 nov. 2000||Bruce Bryan||Bioluminescent novelty items|
|US6186853||27 mai 1999||13 févr. 2001||Gene Messina||Bubble maker with mechanized dipping wand|
|US6244463||9 déc. 1999||12 juin 2001||Oddzon, Inc.||Candy dispenser with single-user-action dispensing mechanism|
|US6247995||6 févr. 1996||19 juin 2001||Bruce Bryan||Bioluminescent novelty items|
|US6345676||7 févr. 2000||12 févr. 2002||Mattel, Inc.||Bubble-producing ride-on vehicle|
|US6408967||31 juil. 2000||25 juin 2002||Mattel, Inc.||Bubble-producing ride-on vehicle|
|US6547622 *||22 mai 2001||15 avr. 2003||Arko Development Limited||Bubble generating assemblies|
|US6969293||26 janv. 2004||29 nov. 2005||Arko Development Ltd.||Bubble generating assembly|
|US6988926||5 sept. 2003||24 janv. 2006||Arko Development Ltd.||Bubble generating assembly|
|US7008287 *||9 avr. 2003||7 mars 2006||Arko Development Limited||Bubble generating assemblies|
|US7144291||8 sept. 2004||5 déc. 2006||Arko Development Limited||Bubble machine|
|US7172484||18 janv. 2005||6 févr. 2007||Arko Development Ltd.||Bubble machine|
|US7182665||5 sept. 2003||27 févr. 2007||Arko Development Ltd.||Bubble generating assembly|
|US7223149||13 mai 2005||29 mai 2007||Arko Development Ltd. (Hk)||Bubble generating assembly|
|US7367861||7 juin 2006||6 mai 2008||Arko Development Limited||Bubble generating assembly|
|US7390236||10 juin 2005||24 juin 2008||Arko Development Limited||Apparatus and method for delivering bubble solution to a dipping container|
|US7476139||14 févr. 2006||13 janv. 2009||Arko Development Limited||Bubble generating assemblies|
|US7758397||8 mai 2008||20 juil. 2010||Arko Development Limited||Apparatus and method for delivering bubble solution to a dipping container|
|US7780497||31 janv. 2007||24 août 2010||Arko Development Ltd.||Bubble machine|
|US7806747||25 mars 2005||5 oct. 2010||Hasbro, Inc.||Toy lawn mower|
|US7883390||25 févr. 2005||8 févr. 2011||Arko Development Ltd.||Bubble generating assembly|
|US7914359||5 janv. 2007||29 mars 2011||Arko Development Limited||Bubble generating assembly|
|US8038500||10 déc. 2007||18 oct. 2011||Arko Development Limited||Bubble generating assembly|
|US8123584||31 juil. 2007||28 févr. 2012||Arko Development Limited||Bubble generating assembly|
|US8267736||21 mai 2010||18 sept. 2012||Placo Bubbles Limited||Animal bubble assembly|
|US8272915||15 févr. 2008||25 sept. 2012||Arko Development Ltd.||Bubble generating assembly that produces vertical bubbles|
|US8272916||14 nov. 2008||25 sept. 2012||Arko Development Ltd.||Bubble generating assembly that produces vertical bubbles|
|US20040082253 *||5 sept. 2003||29 avr. 2004||Arko Development Ltd.||Bubble generating assembly|
|US20040176011 *||26 janv. 2004||9 sept. 2004||Arko Development Ltd.||Bubble generating assembly|
|US20050221714 *||13 mai 2005||6 oct. 2005||Arko Development Limited||Bubble generating assembly|
|US20050227571 *||10 juin 2005||13 oct. 2005||Douglas Thai||Apparatus and method for delivering bubble solution to a dipping container|
|US20050282461 *||23 août 2005||22 déc. 2005||Douglas Thai||Bubble generating assembly|
|WO2001056861A1 *||2 févr. 2001||9 août 2001||Kurt J Huntsberger||Bubble-producing ride-on vehicle|
|Classification aux États-Unis||446/16|
|Classification internationale||A63H33/28, A63H33/30|
|Classification coopérative||A63H33/30, A63H33/28|
|Classification européenne||A63H33/28, A63H33/30|
|24 août 1989||FPAY||Fee payment|
Year of fee payment: 4
|11 janv. 1991||AS||Assignment|
Owner name: FISHER - PRICE, INC., 636 GIRARD AVENUE E. AURORA,
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:QUAKER OATS COMPANY, THE, A CORP. OF NJ;REEL/FRAME:005570/0174
Effective date: 19901206
|16 sept. 1993||FPAY||Fee payment|
Year of fee payment: 8
|4 sept. 1997||FPAY||Fee payment|
Year of fee payment: 12