Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
11532Zl
BACXGROUND OF THE I~VENTION
The present invention relates to a ti~ing
mechanism and more particularly to an intermittent
drive means for such mechanism.
Generally speaking, there is provided an
intermittent drive means for coupling a cam means to
a motor drive means of a timing mechanism, the inter- ~
mittent drive means comprising a motor output member, ~-
and a combination of a geneva drive means coupled to
the motor output member, and eccentric drive means
coupled to the geneva drive means and engaging the cam
means.
Timing mechanisms have long been used in the
appliance industry to provide program sequences to
appliances such as dishwashers, washers, and dryers.
Usually in the operation of such timing mechanisms, the
cam means, which opens and closes electrical switches,
are rotated in a step by step manner by some sort of
intermittent drive mechanism.
One type of intermittent drive mechanism uses
an eccentric wherein at least one drive pawl operates
off an eccentric to index variable ratchet teeth coupled
to the cam means. An eccentric in combination with
variable ratchet teeth permits large advances of the cam
means when critical timing functions are being performed
and small advances when no critical functions are per-
formed.
Another type of intermittent motion used in
timing mechanisms includes the use of geneva drive
means. The use of this type of motion permits the use
of dwell periods when no type of motion is desired.
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11532.Zl
The present invention contemplates the use
of a geneva drive mechanism and an eccentric drive
mechanism in combination to provide an intermittent
rnotion consisting of dwell and drive periods. ~uch
a combination provides tas will be hereinafter discussed)
greater timing accuracy and also increases the life of
the electrical contacts used in the switches of the
timing mechanism.
OBJECTS OR FEATURES OF THE INVENTIO~
It is, therefore, a feature of the present
invention to provide a timing mechanism having an inter-
mittent driven mechanism which provides for greater
timing accuracy and longer life of the electrical con-
tacts of the timing mechanism's switches. Another
feature of the invention is to provide an intermittent
drive mechanism combining an eccentric drive with a
geneva drive. Another feature of the invention is to
provide such an intermittent drive mechanism wherein
the eccentric includes a pair of drive pawls operating
off of separate eccentrics. Another feature of the
invention is to provide such a mechanism wherein the
geneva drive means includes a rotating driven member
having sections of first peripheral gear teeth of a
predetermined length, dwell spaces determined by second
peripheral teeth of longer length, and third peripheral
gear teeth shorter than the first and in line with the
dwell spaces: and a rotating driver member having first
peripheral gear teeth engaging the first psripheral
gear teeth of the driven member, and second peripheral
gear teeth engaging the second and third peripheral
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gear teeth of the driven member. Still another feature
of the present invention is to provide such a mechanism
wherein the eccentric drive means and a driven member
of the geneva drive means are carried on the same shaft.
These and other features of the invention will become
apparent from the following description taken in conjunc-
tion with the accompanying drawings.
According to the above features, from a broad
aspect, the present invention provides a geneva drive
means comprising a rotating driven member having sections
of first peripheral gear teeth, dwell spaces determined
by second peripheral gear teeth, and third peripheral
gear teeth in line with the dwell spaces. A rotating
driver member having first peripheral gear teeth engages
the first peripheral gear teeth of the driven member.
The second peripheral gear teeth engages the second and
third peripheral gear teeth of the driven member.
DESCRIPTION OF THE DRAWINGS
FIGURE 1 is an exploded view of a timing
mechanism utilizing the features of the invention.
FIGURE 2 is a partial section showing the
intermittent drive means of the present invention.
FIGURES 3-6 are sections showing different
operating modes of the intermittent drive means.
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Referring now to the drawings, there is shown
a timing mechanism 10 employing the features of the
invention. Timing mechanism 10 in general includes a
cam means 12 rotatably journalled between end plates 14
and 16, electrical switch means 18 which engage and are
responsive to the cam means 12, a motor drive means 20
carried by end plate 16 through motor mounting plate 17,
and coupling means 22 coupling the motor drive means to
the cam means 12 to impart intermittent rotation thereto.
In general, coupling means 20 includes a geneva drive
means 24 in combination with an eccentric drive means 26.
Motor drive means 20 includes a motor 19 which
may be of the synchronous type and a gear train 21 to
provide a desired output speed. It is mounted on end
plate 16 through tangs 13 and 15 engaging slots 23 and
25. Similar tangs 27 engage slots 23' in side plate 23.
Geneva drive means 24 includes a driven rotat-
ing member 28 having an axis of rotation AA, defined by
shaft 37 and a driver member 30 which i~ the present
embodiment includes a motor output pinion of gear train
21. As shown, driven member 28 has three sets of teeth.
~he first set of teeth includes sections of peripheral
teeth 32. The second set of teeth includes teeth 33, 34
and 35 of longer length and which provide dwell spaces
36 and 38. A third set of teeth includes shorter teeth
40 and 42 which are i~ line with dwell spaces 36 and 38.
Driver member 30 has two sets of teeth. One set 44
meshes with and is in engagement with the sections of
peripheral teeth 32 while a second set 46 and 48 engage
teeth 33, 34 and 35 and short teeth 40 and 42 of the
driven member. Driver member 30 also includes a shoulder
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45 which holds driven member 2a in place during the
dwell periods b~ the shoulder engaging either of teeth
33, 35 or 34, 35. Both the driver and driven member
are rotatably journalled in apertures 29 and 31 provided
in end plate 16.
Eccentric drive means 26 includes a pair of
eccentrics 50 and 52 which are offset from the axis of
rotation A-A of rotating member 28, but integral with
shaft 37. Main drive pawl 54 and secondary drive pawl
56 are carried on eccentrics 50 and 52 respectively to
be driven thereby. The drive pawls engage variable
ratchet teeth 58 which are integrally constructed with
cam means 12. Pawl 54 is biased into engagement with
teeth 58 through spring 60 which is held at one end by
eyelet 61 engaging tab 62 formed in plate 23 and at
the other end by eyelet 63 engaging tab 64 of the drive
pawl. ~rive pawl 56 is held into engagement with the
teeth 58 through compression spring 66 which is biased
against plate 15 and against tab 68 of pawl 56.
AS previously noted, the use of the variable
ratchet teeth 58 permits large advances of cam means 12
when critical timing functions are performed and small
advances when less critical functions are performed.
The multiple drive pawls permit flexibility in the
manner in which the ratchet teeth are advanced and the
geneva drive permits variable dwell times. Using the
two systems in combination combines the advantages of
both without the disadvantages of either. For example,
the combination utilizes the geneva drive means to
provide dwell periods during the rotation of the
eccentric drive means. The dwell periods are programmed
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to occur during the retraction of the main drive pawl
54 operated by the eccentric. This permits the use of
a faster R.P.M. motor for a given time interval than
would be possible with a conventional eccentric drive
system. The faster R.P.M. motor drives the pawl forward
at a higher rate which reduces the time re~uired for a
mechanical advance. For example, on a sixty second time
base, forty-five seconds is used to retract the main
drive pawl and fifteen seconds is used for driving the
pawl forward. A~conventional eccentric drive system
without the dwell periods, would require thirty seconds
to retract and thirty seconds to drive. The faster
advance rate not only provides for greater timing
accuracy, but also increases the life of the electrical
contacts of switch means 18. Such operation can be
described with reference to Figures 2-5.
Referring first to Figure 2, the operation of
geneva drive means 24 can be described. In the illus-
trative embodiment shown, driver member 30 is rotating
clockwise to drive the driven member 28 in a counter-
clockwise direction. The driven members will rotate
so long as the teeth 44, 46 and 48 are in mesh with
teeth 32. During the period of time when teeth 44 only
are aligned with dwell space 36 or 38, driven member 28
will not rotate and is held in place by shoulder 45.
Further rotation of drive member 30 engages teeth 46
and 48 with 33, 34, 35, 40 and 42 to again rotate the
driven member.
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Referring now to Figures 3-5, the operation
of eccentric drive means 26 may be described. As
driven member 28 rotates, eccentrics 50 and 52 (Figure
2) also rotate to rotate main drive pawls 54 and
secondary drive pawl 56 respectively. In Figure 3,
teeth 46 and 48 are about to become disengaged from
teeth 33, 34 and 35 and short teeth 40 and 42. Main
drive pawl 54 is at its maximum drive position while
secondary drive pawl 56 is starting to drive. In
Figure 4, driver member 30 is in a dwell space of
driven member 28 with shoulder 45 of the driver member
holding the driven member in place. In this mode,
drive pawls 54 and 56 are stationary. In Figure 5,
teeth 46 and 48 of the driver member are engaging
teeth 33, 34 and 35 and short teeth 40 and 42 to start
driven member 28. Main drive pawl 54 is retract- -
ing while secondary drive pawl 56 is driving. In
Figure 6, teeth 32 of driver member 30 are engaged with
teeth 34 of driven member 28 to drive it while main
drive pawl 54 is driving and secondary drive pawl 56
is retracting.
It should be noted that since the pawls are
alternately driving and retracting, a reverse rotation
;~ of the cam means is precluded.
This is a division of Canadian patent applica-
tion Serial ~o. 352,201 filed May 14, 1980~
