Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
~ocket M-239-C 1~83~Lltii
SUMMARY OF TlIE INV~NTION
,
The invention relates to a printing apparatus with
a f rame, with printing means operable through successive printing
cycles and including a print head and platen means. There is
means mounting the print head and platen means f or relative
movement toward and away froln each other during each printing
cycle to print data onto a record mernber, with one of the
print head and platen means being f ixedly mounted and the
other of the print head and pla~en means being movably
mounted. An inking mechanism includes an ink roll for inking
the print head. There is means for actuating the rnovable one
of the print head and platen means and for actuating the ink
roll. There is cam means movably mounted on and relative to
the movable one of the print head and platen means and alternatley
movable in opposite directions. There is also means drivingly
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connecting the cam means and the ink roll so that the ink roll
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is driven sequentially between an ink receiving location and
inking contact with the print head. It is preferred in one
specific embodiment thtat -the actuating means includes an
electric motor, first gear rneans, means driven by the electric
motor for driving the Eirst gear maans alternately in o~posite
direction, and second gear means driven by the f irst gear means,
and the cam means is driven by the second gear means. In another
specific embodirnent, the means drivingly connecting the cam
means and the inlc roll including a follower mounted on the
frame and clriven by the cam rneans, a bell crank lever driven by
the follower, a pair oE ar~ns for rnounting the ink roll, and a
pair of rods connected to the bell crank lever for oscillating
the arms to drive the ink rol l between a pos ition in inkiny
contact with the ink transferring roll and the print head, and a
resilient connection betweell the cam means and Wle ink roll.
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834~6 ,
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Prior Art
Th2 following ~.S. patents are made of record:
U.S. Patent No. Patentee Issued
458,945 Crane et al September l, 1891
2,8$8,261 Barnes May 26, 1959
3,180,254 Hamisch, Sr. April 27, 1965
3,228,601 Hamisch, Sr. January 11, 1966
3,350,091 Masterson et al October 31, 1967
3,494,525 Wlig -February 10, 1970
. 3,662,681 Smlth M~y 16, 1972
, 1,520,354 Kel~er December 23, 1924
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Docket M-239-C 1083416
Brief Description of the Drawin~s
.
FIGURE 1 is a side elevational view 3howing one
~ide of printing apparatus in accordance with the invention;
FIGUR~ 2 is a top plan view generally alonq line~
2--2 of FIGURE l;
FIGURE 3 is a partial front elevational view
generally along line 3--3 of FIGURE 2;
FIGURE 4 is a sectional view taken along line
: 4--4 of FIGURE 2; .
FIGURE 5 is a rear elevational view taken alonq
line 5--5 of FIGURE l;
. FIGUI~E 6 ls a sectional view taken along line
6--6 of FIGURE S;
FIGUR~ 7 is a sectional view taken along line
7--7 of FIGURE 2;
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FIGURE 8 is a partly diagrammatic side elevational
view showinq the platen assembly in printing cooperation with
~he print head assembly, showin~ the inkinq mechanism in a
.~ position in which the ink roll is in engagement with the ink
-~ transfer roll, and showing the severing mechanism as having
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severed a record member from the web;
FIGURE 9 is a fragmentary side elevational view
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.~ similar to FIGU~E 8, but showing the ink roller as having inked
the printing members during its forward stroke and showing
~: exaggeratedly the platen in its downward position;
~' FIGUR~ 10 is a fraqmentary view showing part of the
linkage of the inking mechanism in both solid and ~hantom
' line positions;
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FIGURE 11 is a sectional elevational view showing
. the manner in which the ink roll is mounted for travel
relative to the print head assembly;
FIGURE 12 is an enlarged fragmentary elevational
S view illustrating the severing mechanism in both solid and
full line positions;
FIGURE 13 is a fragmentary elevational view showing
the inking mechanism in section;
FIGURE 14 is a sectional view taken generally along .
line 14--14 of FIGURE 13;
FIGURE 15 is a sectional view taken generally along
line 15--15 o~ FIGURE 14;
, FIGURE 16 is a sectional elevational view of apparatus
I by which ink is delivered to the fountain from the sump and
.~ 15 . excess ink is returned to the sump;
FIGURE 17 is a fragmentary sectional view on an
enlarged scale showing a wiper blade and ir~ return ducts and
a header;
FIGURE 18 is an elevational view showing the feeding
mechanism by which the record members are fed; :
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, ~ FIGURE 19 is a sectional view taken along line l9--19
-1. of FIGURE 18; `. ~.
FIGURE 20 is an elevational view through the print :; `
~; head assembly shuwing the manner in which the printing ~ands
are mounted;
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FIGURE 21 is an elevational vièw taken generally
`` along line 21--21 of FIGURE 20, but omitting the printing
bands;
FIGURE 22 is an exploded perspective view of the
5modular printing band support assembly shown in FIGURE 21;
FIGURE 23 is a sectional view taken along line
?3- - 23 of FIGURE 21;
FIGURE 24 is a sectional view taken along line
24--24 of FIGURE 21;
10FIGURE 25 is an elevational sectional view taken along
line 25--25 of FIGURE 21;
FIGURE 26 is a view taken generally along line 26--26
of FIGURE 25;
FIGURE 27 is a diagrammatic view showing
15the manner in which the functions of the printing apparatus
are timed;
, FIGURE 28 is a sectional view taken generally along
line 28--28 of FIGURE 27;
FIGURE 29 is a schematic circuit diagram showing
20a manner in which the record severing function can be
; accomplished; .
FIGURE 30 is a schematic circuit diagram for the
,: record feed mechanism;
FIGURE 31 is a perspective view of an alternate form :
25of drive and mounting mechanism for the ink roll;
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~IGURE 32 is a side elevational view of the
mechanism shown in FIGURE 31;
FIGURE 33 is a sectional view taken along line
33-33 of FIGURE 32;
FIGURE 34 is a sectional view taken along line
34--34 of FIGURE 33; and
FIGURE 35 is a sectional view taken along line
35--35 of FIGU~E 33.
Description of the Preferred Embodiments
Referring to FIGURE 1, there is shown a printing
apparatus generally indicated at 30 including a frame
generally indicated at 31. A print head assembly 32 is
' fixedly mounted to the frame 31 and a platen assembly
:~i generally indicated at 33 is pivotally mounted to the frame
1 , .
ll lS 31 by a pivot pin 34. An in~ing mechanism or inker generally
., .
~;l indicated at 35 is provided for inking the print head assembly
.,~ 32. A roll 36 of record members 37 arranged in web form is
" mounted by a rotatable reel 38 mounted by the frame 31. The
web of record m~mbers 37 passes under and partly around a
rotary feed member 98, from there it passes into contact with,
~; over and partly around the roll 36 of record members 37 and
. from there onto the upper surface 39 of the platen assembly 33
. beneath a hold-down plate 40 and an aligning roll 41. From
there the web of record members 37 passes between a feed wheel
42 and a roll 43. From there the web of record members 37 is
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Docket M-239-C
advanced to a rigid platen 44 of the platen assembly 33.
The feed wheel 42 operates near the end of each machine
cycle to advance the printing record member or members 37
to a position in which the trailin~ edge of the advanced
record member or members 37 are at a fixed knife 45 of a
severing meahanism generally indicated at 46~ The severing
mechanism 46 which is downstream of the feed wheel 42 also
include3 a movable knife 47. The movable knife 47 is
pivotally mounted about a pivot 48 and is cooperable with
the fixed knife 45 to sever the Previously printed record
member ox members 37 ~rom the remainder of the web.
An electric motor 49 is mounted to the frame 31.
The electric motor 49 drives a speed reducer 50 which in turn
is connected to the input of a clutch indicated diagrammatically
at 51. The clutch 51 is shown in ~reater detail at 153 in above
U.S. patent No. 3,180,254. The output of the clutch 51 is
connected to a drive shaft 52 journaled in a bear~ng 53. An
eccentric generally indicated at 54 in the form of a crank 55
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.' has an eccentrically mounted crank pin 56. The pin 56 i~ :
: received by a ball 57 received in a socket 57'. The socket
S7' forms part of a connecting rod generally indica~ed at 58.
~'. With reference to FIGURE 3, the conn~cting rod
.'' socket 57' i8 shown to threadably receive a rod 59. A lock
nut 60 threadably received by the rod or rod section 59
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maintains the ad~usted position of the rod 59 relative to
the ~ocket 57~. The rod 59 also threadably receives a pair
: of nuts 61. A com~ression spring 62 is received about the
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rod 59 between the nuts 61 and a socket or socXet section
63. The nuts 61 are adjusted so that the spring 62 is always
under some compression irrespective of the position of the
crank pin 56. The rod 59 has an enlarged section 64 received
in an elongated recess 65 in the socket 63, thereby permitting
relative movement between the rod S9 and the socket 63. The
socket 63 movably mounts a ball 66 in a socket hole 67. The
ball 66 has a hole 68 in which a shaft 69 is received. The
shaft 69 is rigidly connected to the platen assembly 33. :
, 10 Before the clutch 51 is engaged, shaft 56 is in the phantom
line position indicated at S6' in FIGURE 3. In this position,
the platen 44 of 'he platen assembly 33 is spaced from
printing members 70 of the print head assembly 32. As the
shaft 52 rotates clockwise (FIGURE 3), the platen assembly 33 ~-
. 15 continues to move away from the print head assembly 32 until .
the crank pin 56 rotates clockwise to its lowerest position
. (FIGURE 3). As the shaft 52 continues to rotate clockwise, the
. platen assembly 33 starts moving toward the print head assembly ~
32. Before the crank 56 reaches the highest position shown ~ :
by solid lines in FIGURE 3, stop screws 71 engage a stop pro- :
vided by a stop plate 72 rigidly mounted to the frame 31 by
a bracket 73. The bracket 73 is considered to be part of the :
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` frame 31. While the stop screws 71 are in contact with the :~.
stop plate 72 the record member is in contact with the printing
members 70. The stop screws 71 are adjustable to e~fect
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, adjustment of impression control.
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With reference to FIGURES 1 and 5, the electrir
motor 49 has a gear 74 secured to its output shaft 75.
The gear 74 drives a gear 76 secured to a pulley 78.
The gear 76 and the pulley 78 are rotatably mounted on a
shaft 77. The pulley 78 drives a pulley 79 via belt 80.
The pùlley 79 is secured to a shaft 81. A bracket 82
secured to the frame 31 mounts the shaft 77 and a stationary
bearing 83. The gear 76 and the pulley 78 are secured to a hub
member 77'. The shaft 81 is rotatably mounted by the bearing
¦ 10 83 and drives pulleys 84 and 85 and 99. The pulley 84 drives
! a pulley 86 via belt 87. The pulley 86 and a pulley 88 are
I keyed together so that they rotate as a unit about stationary
1 shaft 89. The shaft 89 is secured to the frame 31 by a bracket
90. The pulley 88 drives a pulley 91 (FIGU~E 15) via belt
. 92. The pulley 91 drives the mechanism 35. ;
~, The pulley 85 (FIGURE 5) drives a pulley 94 via
;, belt 95. The pulley 94 is secured to a shaft 96 rotatably
mounted by a bearing 97. A rotary frictional feed member
98 is secured to the shaft 96.
' 20 . A pulley 99 secured to the shaft 81 drives a pulley
; 100 via belt 101. The pulley 100 and another pulley 102 are
keyed together so that they rot~te as a unit about a stationary
shaft 103. The pulley 102 drives a pulley 104 (FIGURES 18 and :~
19) via belt 105. As best shown in FIGURES 18 and 19, the
~'~ 25 pulley 104 drives the record feeding mechanism generally in-
.~ dicated at 107.
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1~83416
With reference to FIGURE 18, the platen assembly 33
is shown to be comprised of a platen frame 108 in which the
shaft 103 is adjustably mounted to tension the belt 105.
Th~e tension on the belt 101 is maintained by a pair of springs
109 (FIGURES 2 and 18). A pair of plates 110 and 111 are shown
to be mounted in spaced parallel fixed relationship with
respect to each other by spacer rods 112, 113 and 114. The
ends of the rods 112, 113, and ll4 are suitably secured to ~:
the plates 110 and 111 to provide a unitary feed assembly ~
rame 115. The plates 110 and 111 of the feed assembly frame ~ :.
115 are pivotally mounted by studs 116 and 117 carried by a
bracket 33' secured to the platen frame 108. The studs 116 ~:
and 117 pivotally mount the solenoid housing 157. The entire
feed assembly frame 115 is accordingly pivoted by the studs ;.
. 15 116 and 117 with respect to the platen frame 108. The plate
110 is shown to be in abutment with a stop screw 118 threadably
mounted by the platen frame 108. The stop screw 118 adjustably ::~
limits the position to which the feed assembly frame 115 can be
pivoted by a tension spring 119, thereby adjusting the amount of
pressure which the feed wheel 4~ exerts on the underside of the
record web. The tension spring 119 is connected at one end ::
~ to the rod 114 and at its other end to the platen frame 108.
:.i With reference to FIGURE 19, there is shown a :;
wrapped-spring clutch generally indicated at 120. The clutch.
120 includes a tubular sleeve 121 having a flat 122. The
; pulley 104 matingly receives the sleeve 121 at the flat 122 so
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~83~16
that the pulley 104 and the sleeve 121 rotate as a unit. An
annular tubular drive member 123 is press-fitted onto the
sleeve 121 so that the sleeve 121 and the drive member 123
rotate as a unit. A control sleeve 124 is received about the
drive member 123. The sleeve 124 can be constructed of suitable
plastic material. The sleeve 124 has an annular external groove
125 which receives a resilient O-ring 126, composed of a material
having a relatively high co-efficient of friction such as
rubber. As the O-ring 126 is snugly received in the groove 125
in a slightly stretched condi~ion, the O-ring 126 does not
rotate relative to the sleeve 124. An output driven member
generally indicated at 127 has an enlarged annular section 128,
the diameter of which is illustrated as being equal to the
diameter of the drive member 123. The feed wheel 42 is shown
, 15 to be formed integrally with the enlarged annular section 128.
A spring 130 is shown to be received about a portion of the
outer surface of the drive member 123 and about the outer
surface of the annular section 128. One end o~ the spring
130 is turned out to provide a tang 131 received in an open-ended !:
-` 20 slot 132 in the sleeve 124. The sleeve 124 is shown to have an
enlarged internal diameter as indicated at 133 to provide
, clearance between the spring 13~ and the sleeve 124. The
output driven member 127 has a reduced diameter section 134 ~ -
~ which eY.tends through the sleeve 121, a spacing and retaining ll -
i 25 sleeve 135, a bushing 136, washe~s 137 and 138, an O-ring 139,
and into the knob 140. The output driven member 127 also has
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Docket M-239-C -.
a stub end 141 recéived by a bushinq 142. The bushing 142 ::
is non-rotatably mounted by the plate 111. A set screw 143
threadably mounted by the sleeve 135 and received in a ~roove
144 of the section 13~ prevents the driven member 127 from
shifting in a direction perpendicuiar to the plates 110
and 111, but allows the member 127 to be rotated. The bu~hing
136 i8 non-rotatably mounted by the plate 110. In the solid
~: line po ition shown in FIGURES 18 and 19, a control member
145 is shown to have a pair of blunt, spaced-apart teeth 146;
the control ~ember 145 is shown in contact with the O-ring ~ ~:
126, thereby holding the sleeve 124 and the sprinq 130
uncoiled or expanded so that it has a larger internal diametex
than when the clutch 120 is engaqed. As the pulley 91 rotates
continuously, the sleeve 121 and the drive member 123 rotate
continuou~ly relative to the sleeve 124 and the spring 130.
While the control member 145 is in contact with the O-ring :
126, the spring 130 i8 expanded thereby preventing the drive ;
member 123 from driving the annular section 128 of the OlltpUt
member 127. When the control member 145 is moved to the
phantom-line position (FIG~RE 18) out of contact with the
- O-ring 126, the snrin~ 130 coils up, that is, its internal
diameter is reduced, thereby ~ripping the drive member 123.
. The clutch 120 is now enqa~ed as the s~rin~ 130 driv~ngly
connects the input member 123 and the output member 127. Wllen
: the clutch 120 is en~a~ed, the feed wheel 42 rotates. The we~
of record me~bers 37 is fed between the feed wheel 42 and a roll
,r~ 43 which is rotatably mounted in a block 148 b~ a bearing 150.
The block 148 is suitably mounted to the platen frame 108.
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The outer surface of the feed wheel 42 is provided with
straight knurls 42' which engage ~he underside of the web
of record members 37. The feed wheel 42 is considerably
narrower than the width of the web being fed. However, the
roll 43 is long enough to engage the upper surface of the
web across a considerable portion of its width. Thus, the
roll 43 serves to hold the web down against the upper surface
of the platen frame 108 immediately upstream of the platen
44. When the control member 145 is moved to the phantom
line position (FIGURE 18) out of contact with the O-ring
126, the rotation of the O-ring 126, the sleeve 124, and the
spring 130 is arrested, thereby causing the spring 130 to
uncoil or expand. Uncoiling of the spring 130 effects
- disengagement of the clutch 120 by causing the spring 130 to
move outwardly away from the outer surface of the drive member
123. Accordingly, the feed wheel 42 is no longer driven and
the movement of the web of record members 37 stops. It is
noted that the control member 145 contacts the O-ring 126 above
the center of the control sleeve 124 at an obtuse angle A
relative to the direction of travel of the O-ring at the point
of contact. Moreover, considering a first line between the point
,, of contact and the pivot 113, a second line perpendicular to the
first line and interseating the first line between the point
of contact and the pivot 113 passes through the center line of
the sleeve 124. This results in effective disengagement at the
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~ clutch 120 when the mem'cer 145 contacts the 0-ring 126.
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Docket M-239-C
The end ~ection 149 of the driven member 1~7 has
a flat 150'. The knob 140 is received by the end section 149
and ha~ a flat 151 which cooperates with the ~lat 150 o~
the end section 149 to pre~ent rotation of the knob 140
relative to the end section 149. A friction clutch 152 ~ :
includes the washer 138 which i8 keyed to the 6ection 14~, .
the 0-ring 139, the wa~her 137 and the end surface o~ the
bushing 136. A screw 153 threadably received by tha end
~ection 149, is adjustable to adjust the amount of frictional
drag of the clutch 152. It ~s apparent that the feed wheel
42 can be driven either throu~h torque appli~d by the pullev : :
104 when the clu~ch 120 is enqaged, or manu~lly by rotation
of the knob 140 but the clutch lS2 frictionally holds the fe~d
wheel 42 in the position into which it has been advanced,
either as a result of the engagement of the clutch 120 or as
the re~ult of manuall~ rotating the knob 140. :.
A solenoid 154 (~IGURE 18) mounted by the platen
frame 108 has an armature 155. A compression spring 156 is
received about the armature 155 between the end of the solenoid .~ :
hou~ing 157 and a flange 158 on the armature 155. The armature
155 i~ connected to the control member 145 by a pin 15~. The
spring 156 normally holds the control member 145 in the solid
line position (FIGURE 18). Energization of the solenoid 154
causes the armature 155 to ~hift, thereby pivoting control
member 145 clockwlse into the phantom line position (FI,URE 18)
out of contact with 0-ring 126. ~nergization and deenergization
of the ~olenoid 154 is controlled by a circuit ~hown in
FIGURE 30.
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~ocket M-239-C ~
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The feed wheel 42 advance~ ~he web once during
each machine cycle so that a record member 37 i4 pre~ented
to the printing position or zone between the platen 44 and
the printing members 70. When the record member 37 arrive-q at
the printing zone, the clutch 120 i~ di~engaged and the feed
wheel 42 sto~s rotating. However, as the output shaft 75 of
the electric motor 49 rotates continuously, the rotary eed
member 98 is continuously driven. The rotary feed member 98
i8 shown in FIGURES 5 and 6 to have a hub 160 secured to the
driven shaft 96. The hub 160 i~ shown to be provided with
four dove-tail 510ts 161 for receiving re~pective drive
member~ 162. The drive member~ 162 are in the form o out-
wardly extending ~anes or blades. The drive members 162 are
composed of a flexible, resilient material preferably having
.j
a high co-efficient of friction, such as rubber~ When the
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I drive member~ 162 are in driving engagement with a section
, ~ of the web which has been paid out of the roll 36, the ~rive
member~ 162 flex ~lightly as they engage the web. A~ the
rotary feed member 98 continues to rotate, additional web
material i~ paid out of the roll ~6 until gradually slackne~
develops. As the ~lackness increases, the contact between the
rotary feed member 98 and the web decrea~es and it can
- decrease to ~uch an extent that the paid out web ~ection looses
contact with the feed member 98 ~s indicated by phantom lines.
As rotation of the rotary feed member 98 continues, the feed
wheel 42 and the roll 43, together with the feed member 98
provides a simple arrangement for feeding the web material
rom the roll 36. As the roll 36 has a relatively large amount
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of inertia, and as the feeding by the feed`wheel 42 is ~-
intermittent, the construction, arrangement and location of
the feed member 98 prevents an un~ue amount of web material
from being paid out of the roll 36. This is accomplished
without applying any braking force either to the reel 38,
to the roll 36, or to the paid out web material, although ;~
the art is replete with such devices. As best shown in :
FIGURE 5, it is noted that the reel 38 and the rotary feed
member 98 are disposed at the same slight angle with respect to
the horizontal. Assuming the apparatus is mounted on a generally
horizontal surface, the roll 36 will not come off the reel 38
and yet the rotary feed member 98 can make full contact with
the underside of the web. The peripheral speed of the drive ,~
members 162 is greater than the peripheral speed of the feed
wheel 42.
With reference to FIGURES 2 and 7, there is provided
an aligning mechanism yenerally indicated at 163. The aligning
mechanism 163 include~ an arm 164 pivotally mounted by the pivot
pin 34. A tension spring 165 is connected at one end to the ~-
arm 164 and at its other end to a plate 108' secured to the
platen frame 108. A shaft 166 secured to the arm 164 is
disposed at a slight angle with respect to the direction of
travel of the record members 37 and to a plate 108" secured to
the platen frame 108. An aligning roll 41 is comprised of a
bushing 167 rotatably mounted by the shaft 166 and a one-piece
molded annular frictional member 168 having a plurality of
external annular flanges 169. The spring 165 urges the roll 41
toward platen surface 39. As the web advances, the web rotates
.
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834~6
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the rall 41 which causes the web to move into alignment
with an upstanding guide edge provided by the plate 108".
The platen 44 is shown in FIGURE 7 to be adjustably ~ :
mounted to the platen frame 108 by screws 170. The screws
, 5 170 pass through elongated slots 171 in the platen frame 108
jl and are rotatably received by respective nuts 172. In this
manner, the platen 44 and the knife 45 formed at the terminal
end of the platen 44 can be adjusted relative to the movable
knife 47.
A bracket 173 is suitably secured to the platen
~,
, ~rame 108. The bracket 173 threadably receives the adjusting
,l screws 71. Lock nuts 71' lock the respective screws 71 in
their adjusted positions. The bracket 173 mounts pivot 48.
The movable knife 47 has a pair of flanges or arms 176 and 177 ~: :
1 15 which are pivotally mounted by the pivot 48. A link 178 is
t ~ connected to the arm 176 by a pivot pin 179, and a link 180
; is connected to the arm 177 by a pivot pin 181. The links 178
,~ and 180 are identical and have respective elongated slots 182
, and 183 and respective stop shoulders 184 and 185. A solenoid
. 20 186 is secured to the bracket 73. Armature 187 (FIGURE 7) is
.,
:~ shown to be received in a compression spring 188. The spring 188
is compressed between the end of the solenoid 186 and a washer
. : 189 which bears against a pin 190'. A generally U-shaped yoke
l9G secured to the end of the armature 187 by a screw 191 has a
pair of forwardly extending arms 192 and 193. The arm 192 is
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Docket M-239-C
pivotally connected ~o the link 178 by a pivot pin 194; and
the arm 193 is pivotally connected to the link 180 by a pivot
pin 195. Ar~s 192 and 193 have re~pective stop ~houlder~ 192'
and 193'.
The severing mechanism 46 i5 only effective when the
~olenoid 186 has been energized. The ~olenoid 186 is en~rgized
during the time in the machine cycle when the shoulders 184
and 185 are below a stop face 196 provided by a plat~ 197
~ecured to ~he bracket 73. Energization of the ~olenoid 186
drives the links 178 and 180 against the end 198 o~ the plate
197. As~the platen a~sembly 33 moves upwardlyt the shoulder~
184 and 185 of the respective links 178 and 180 engage the stop
face 196 (FIGURE 8) to pivot the m~vable knife 47 counter-
clockwiæe into severing cooperation with the knife 45, thereby
seyering a record member 37 from the web. During the remaindex
of the machine cycle, the platen a~sembly 33 moves away rom
the print head 32. Upon deenergization of the solenoid 186,
the springs 199 and 200 respectively connecting the link 178 and
the bracket 173, and the link 180 and the bracket 173 cause the
~ovable knife 47 to pivot to its clockwi~e position shown in
FIGURE 9.
~ he spring 188 normally holds the yoke 190 and the
pins 194 and 195 in the positlon shown for example in FIGVRE 7.
Assuming that the solenoid 186 is not energized, the ~houlder~
184 and 185 will not engage the stop face 196 a~ t~e platen
assembly 33 moves upwardly. Accordingly, the movable knife
47 will remain in its initial position relat~ve to the ~nife
45 (FIGUR~S 1 and 7).
~' .. .
; '
. . .
. ' - ' . . . " . ' '
. . .
.~ , .
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~39~6
The movable knife 47 has a manually engageable
upstanding tab or handle 47' by which the movable knife 47
can be moved into record severing relationship with respect
to the knife 45. As the movable knife 47 pivots, the slots
182 and 183 allow the links 178 and 180 to be moved downwardly
as viewed in the drawings. The springs 199 and 200 thereafter
return the movable knife 47 to its initial position shown in
FIGURES 1 and 7. Flange 177 has a projection 177' which is
urged into control with a stop 177" by springs 199 and 200 to ~:
define the initial position.
With reference to FIGURES 3 and 7, the bracket 173
is shown to have an extension 201. A resilient deflector
ganerally indicated at 202 includes inwardly and upwardly ex-
tending spring fingers 203 which in their normal positions
extend to immediately adjacent and slightly below the cutting
edge of the knife 45. The marginal ends 204 of the spring
fingers 203 are turned away from the edge of the knie 45.
The spring fingers 203 are integrally joined to a mounting
. portion 205 disposed in underlying relationship to the
extension 201. Screws 206 secure the mounting portion 205 to
. the extension 201. Whan the mo~able knie 47 is actuated
. . .
into cutting relationship with the knife 45 to sever a re¢ord
~. member 37 from the web, the movable knife 47 deflects the
; spring fingers 203 from the position shown in FIGURE 7 to the
position shown in FIGURE 8. As the movable knife returns from
the position shown in FIGURE 8 to the position shown in FIGURE
7, the spring fingers 203 also return to the position shown in
. ~ .
~ .
; 20-
.
~L~834~
FIGURE 7. The fingers 203 not only prevent the severed
record member 37 from falling out of reach in the apparatus
30, but they also serve to propel the individual record membexs
into a discharge chute indicated by phantom lines 206 in
FIGURE 7. The chute 206 is disposed between arms 176 and 177
of the movable knife 47.
,. " .: ............. ..................................................................... ..
Referring to FIGURES 11 and 13 through 17, and
initially to FIGURE 13, there is shown the inking mechanism
generally indicated at 35. The inking mechanism 35 includes
' 10 a reservoir or fountain 211 by which an ink supply roll 212
and an ink transfer roll 213 are mounted. The ink transferring
roll 213 is an anilox roll having typically microscopic
geometric shaped holes or cells in its surface. These holes
or cells carry the ink to an ink roll 251. The fountain 211
has a fountain cover 211'. The ink supply roll 212 has
a hub 214 and an ink receptive cover 215 made of rubber. The
' hub 214 is keyed to a shaft 216 by a key 217. A screw rod
218 threadably received by the shaft 216 is shown to be
tightened to drive the key 217 into keying engagement with the
, .
hub 214. The shaft 216 is rotatably mounted near one end by
a bearing 219 in an arm 220 of a U-shaped frame generally in-
dicated at 221. The shaft 216 is also mounted near its other
-, end by a bearing 222 received by the o~her arm 223 of the U-
shaped frame 221. The frame 221 i.s pivotably mounted by a
.. : . .
shaft or pivot 224 mounted at opposed ends 225 and 226 by the
fountain 211. ~ set screw 227 prevents the frame 211 from shifting
axially along the shaft 224.
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~ 3~6
The frame 221 has an extension 228 with a hole 229 !
A screw 230 passes through a hole 231 in the fountain 211 and
the hole 229 in the extension 228. A rod 232 having a
threaded bore 233 threadably receives the screw 230. A
compression spring 234 is received about the screw 230 between
the screw head 235 and the fountain 211. Tightening the screw
230 causes the ink supply roll 212 to be pressed more tightly
against the ink transferring roll 213, thereby diminishing
the amount of ink which is transferred to the ink transferring
roll 213 by the ink supply roll 212. Loosening the screw 230
results in more ink being transferred to the ink transferring roll
213.
The ink transferring roll 213 is secured to a mounting
shaft 236 by a set screw 237. The shaft 236 is rotatably mounted
in bearings 238 and 239. The shaft 236 is driven by the pulley
i 91. A pinion 240 secured to the shaft 236 is in meshing en-
gagement with a gear 241 secured to the shaft 216. As the
external diameter of the ink supply roll 212 and the ink trans-
ferring roll 213 are the same, the gears 240 and 241 cause the
ink supply roll 212 to be driven at a slower rate of speed than
the ink transfer roll 213. This difference in the peripheral
speeds of the rolls 212 and 213 results in a slight wiping
action or slippage as the rolls 212 and 213 rotate in the
directions of arrows 212' and 213' (FIGURE 13). This wiping
action is found particularly beneficial with inks of relatively
high viscosities in effecting diminuation in the amount of ink
transferred to the ink transferring roll 213. As the amount of
.
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,
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~3834~
Docke~ M-239-C
pres~ure ad~ustment betwaen the rolls 212 and 213 is relatively .
small upon the 1003ening or tightening of the screw 230, the
correct meshing engagement between the gears 2~0 and 241 is
not afected.
A wiper blade 242 secured to the ~ountaln 211 is
sl~ghtly longer and thus extPnd slightly beyond both ends of
the roll 212. The blade 242 bo~h limits the amount of ink
which i~ transferred to the roll 213 and distributes the ink
relatively evenly over the surface of the roll 212. As best
shown in FIGURE 17, the amount of ink I in the fountain 211
i8 limited by a weir 244. Excess ink in the fountain 211
pours over the weir 244 and gravitates through openings 245
between a plurality of bosses 246 which receive ~crews 243.
From openlngs 245 the ink flows gravitationally throu~h a
plurality of drain holes 247 (one of which i8 shown) into
ink return header 248 ~rom which the excess ink i8 returned
via flexible tube 250 to a sump in the form of a glass jar 249.
An ink roll 251 is shown in FIGURE 13 to be in inking
cooperation with the ink transferrlng roll 213. The ink rollS
251 includes a tubular sleeve 252 having a covering 253 of ink
receptive material æuch as rubber. Guide rollers 254 and 255 ~::
are secured to a shaft 258. The sleeve 252 is rotatable on the
!, shaft 258 by bearings 256 and 257.
.. . .
' .
. -~3-
~' .
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.
A knurled wheel 259 is secured to the shaft 236 by
a set screw 259'. The wheel 259 dri~ing~y engages an annular
rub~er wheel 260 secured to the sleeve 252 when the roll 251
is in inking relationship with the roll 213 as shown in
FrGURE 13. A gap 261 between the covering 253 and the wheel
260 to prevent any ink from being transferred to the wheel 260
from the covering 253.
With reference to FIGURE 11, the rolls 254 and 255 are
shown to be in contact with guide means in the form of res-
pective cams 262 and 263. The diameter of the wheel 260 is
slightly larger than the diameters of the rolls 254 and 255.
The wheel 260 is shown to be in contact with a plate 262A ~he
lower surface of which is spaced slightly above the lower surface :
of the cam 262 as viewed in FIGURE 11. The ink roll 251 is
normally in the position shown by phantom lines 251' in : :
FIGURE 13. As the platen assembly 33 pivots downwardly, the ~ .
ink roll 251 is driven from the position shown by phantom
lines 251' to the position shown by phantom lines 251". The
cam tracks 262 and 263 can be individually and independently
adjustable upwardly and downwardly relative to the printing
mem~.ers 70 carried by the print head assembly 32. Adjustment
of the cam tracks 262 and 263 by screws 262' and 263' which
extend thxQugh enlarged slots 262" and 263" adjusts the amount
of pressure or inking contact between the roll 251 and the
printing members 70, thereby controlling the application of
ink to the printing members 70. While the ink roll 251 is ~ .
moving from the position shown by phantom lines 251' to the
position shown by phantom lines 251", the ink roll 251 is
driven by the plate 262A which is in driving engagement with
.~
., '
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';
' ~ . . , ~ .
~ 6
the wheel 260. The ~act that the wheel 260 has a slightly
larger diameter than the covering 253 of the ink roll is of ¦
no practical consequence in that the contact area between the
printing members 70 and the covering 253 is many times greater
than the contact area between the plate 262A and the wheel 260.
Accordingly, the ink roll 251 rolls across the printing members
70 witho~t slipping.
With reference to FIGURE 1, a gear section 264
specifically in the form of a gear segment, the center of
rotation o~ which is the axis of the pivot 34, is secured to
the platen frame 108 by screws 265. Accordingly, the rack
264 rotates as a unit with the platen frame 108. A pinion 266
is secured to a shaft 267 pivotally mounted in a stationary bracket : :
268. The bracket 268 is secured to the frame 31. An arm 269
}5 secured to the shaft 267 carries a roller 270. With reference
to FIGURE 9, as the platen assembly 33 moves generally downwardly, .:::
the rack 264 drives the pinion 266 and the arm 269 counterclock~
wise. The roller 270 is received in a cam slot 271 of a cam :~:
. ollower 272. The follower 272 is secured to a shaft 274 ::
. 20 pivotal about a bearing 273 suitably secured to the f~ame 31.
` A rocker 275 secured to the shaft 274 carries a spaced apart
pair o~ ball joints 276 and 277. The ball joints 276 and 277
are received by respective sockets 278 and 279. The ball joints
276 and 277 and the sockets 278 and 279 are identical-in con-
25 struction. Accordingly, only the ball jOillt 277 and its respec'ive
socket 279 are shown in detail in FIGURE 10.
~, , .
: 25 :
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:, :
34
J`
With reference to FIGU~E lO, the ball joint 277
: is shown to have a threaded shank 280 threadably received in
a threaded bore 281 in the rocker 275. Theiball joint
277 includes a spherical ball 282 joined to the shank 280. `~
The distance between the ball 282 and the centerline of the
shaft 274 can be varied by turning the ball joint 277. This
changes the length of the arc through which the ball 282
travels. A lock nut 283 and washer 284 lock the shank 280
: in its adjusted position. The socket 279 includes a housing
; lO 285 and an opposed pair of socket members 286 and 287. The
~ housing 285 has a threaded bore 288 which receives a screw
''`! 289, A compression spring 290 is compressed between the
.,~ socket member 286 and the screw 289. The soc~et member 287
.~ is suitably rotatably mounted in the housing 285, but the .
lS socket member 286 is slidable ~enerally to the left ~FIGURE lO)
away from the socket member 287 to further compress the spring
290 &s shown by phantom lines in FIGURE 10 during the inking
of the ink roll 251,
, j .
. Rods 291 and 292 are suitably secured at their
one ends to the socket members 287 of the respective sockets
278 and 279, The other ends of the rods 291 and 292 are :
threadably reaeived b~ respective connectors 293 and 294. The
connectors 293 and 294 are connected by pivot pins 295-and 296 to
respective carriages 297 and 298~ The carriage 297 (FIGURE 8)
rotatably mounts rollers 299, 300 and 301 by respective pivot
pins 299', 300' and 301'. The carriage 298 (FIGURE 1) rotatably
mounts rollers 302, 303, and 304 by respective pivot pins 302',
f 303' and 30~'. The rollers 299, 300 and 301 are in ~uided
I rolling contact with a guide track 305 shown in detail in
:3
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Doc~et M-239-C
FI~URE 11. The rollers 299, 300 and 301 make three-point
contact with the track 305. l~he rollers 302, 303 and 304
are in guided, rolling, three-~oint contact with a guide
track 306 (FIGURE 1). Llnks 307 and 308 are mountad to
carriages 297 and 298 by respective pivots 309 and 310.
The o~posite ends of the shaft 258 are mounted by the arms
307 and 308. Springs 309' and 310' connected to respective
links 307 and 308 and carriages 297 and 298 urge roller~ -
254 and 255 against respective cam tracks 262 and 263.
With references to FIGURE 16, the jax 249 is
mounted by a holder 311 secured to the frame 31. A cap
312 is threadably secured to the jar 249. The cap 312 has
a large opening 313. A metal plate 314 and a compres~ible
liner 315 are clamped between end wall 316 of the cap 312
and the terminal end of the jar 2~9. A pump generally
indicated at 317 is shown to include a tubular pump body
318. The pump body 318 has an enlarged external diameter
section or flan~e 319 and a threaded section 320. A nut
321 received by the threaded section 320 bears against th~
line 315 and draws the flange 319 aqainst the plate 314 to
mount the pump in an upright position. Spaced ~lightly
above the lower terminal end 322 of the pump body 318 are
a plurality of inlet port~ 323. ~ ball 324 i~ received in
a recess in the lower end of the pump body 318. A hellcal :
spring 325 receives a rod 326. One end of the spring 325
contacts the ball 324 which acts as a bearing for the
spring 325. The other end of the rod 326 extends to about
the end of the pump body 318. The sprin~ 325 exerts a
gripping ~orce in the rod as the outside diameter of the
~:.
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Docket M-329-C ~34~
rod 326 is greater than the internal diameter of tha spring
325 before the rod 326 is inserted into the spring 325.
Accordingly, the spring 325 and ~he rod 326 are rotatable
a~ a unit. There is only a slight amount of d earance
between outside of the sprlng 325 and the inside bore 327
of the pump body 318. The spring 325 extends all the way
from the lower end o~ the rod 326 (FIGURE 16) to the slotted :~
marginal end 328 ~FIGURE 15) of a connector 329 secured to
the shat 216. The end of the spring 325 ha~ a tang 330
which extend~ into the slot 331 of the slotted end 32R, `
thereby connecting or keying the ~pring 325 to the connector
329. As the shaft 216 and the connector 329 rotate, the ~.
spring 325 rotates within a flexible pla~tic tube 332.
The flexible tubes 250 and 332 are curved and the spring 325
conforms generally ~o the internal contour of the tube 332.
The portion of the spring 325 in the bore 327 is not on the
same axi~ a~ the drive shaft 216. The tube 332 is received
about a tubular extension 333 of the fountain 211. A wlre
.
stiffener 334 is wra~ped about the marginal end portion 335 o~ .
the tube 332. The stiffener 334 insures that the portion 335
of the tube 332 between the upper and lower ~asses 92' and 92"
of the continuously moving belt 92 does not come into contact
with the belt 92. Similarly, a wire ~tiffener 336 i9 wrapped
about the marginal end portion 337 of the tube 250. The ~tiffener
336 insure~ that the portion 337 o~ the ~lexible tube 250 does
not come into contact with the lower pass 92" of the belt 92.
The lower end of the tube 250 i~ connected to a
tubular fitting 338 (FIGURE 16). The fitting 338 has a
flange 339 and a threaded section 340. A nut 341 secures
the fitting 338 to the plate 314.
-28-
1~383~1~
With reference to FIGURE 14, as the shaft 216 :
rotates continuously, the spring 325 is àlso continuously
rotated within the flexible tube 332~ The spring 325 extends
into the tubular pump body 318 and rotates together with the ~ .
rod 326. The rod 326 fills up the space within the coils .
of the springs 325. As the spring 325 rotates, ink I in the
jar 249 ia drawn through the inlets 323. As the ink I has
a relatively high viscosity, the ink I trapped between the
rod 326 and the bore 327 of the pump body 318 and between
the coils o~ the spring 325 is conveyed upwardly. The ink I ~"
in the tube 332 above the rod 326 completely fills the space ~:.
in the tube 332 which is not occupied by the spring 325.
Accordingly, the continuous rotation of the spring 325
causes ink to be delivered continuously through the pump
.
body 318, through the flexible tube 332 and through the ,.
I fitting 333 (FIGURE 14) into the fountain 211 as indicated.
¦: by arrow I'. The ink I supplied to the fountain 211 always
exceeds the amount required so that~excess ink is continuously ::~
returning through the header 248 to the jar 249 via the tube
250. The inside of the jar 249 is at atmospheric pressure
because of alianed vent holes 3.14' and 315' in the plate 314
,t ' " " , ' ,' '. . :
:i~ and the liner 315, respectively, :: ..
- With references to FIGURE 20, the print head
assembly 32 i5 shown to include a pair of print heads 341
~, 25 and 342 mounted by a print head assembly frame 32 ". The
~, frame 32'' is suitably secured to the machine frame 31.
i
. Each print head 341 and 342 rotatably mounts a respective
series of drive wheels 343 and 344, The wheels 343 are in
,,
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: .
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:, . , ~, , , ,, , : ,, , ~, . .
1~339L116
:
axial alignment with each other, and the wheels 344 are
in axial alinment with ea~h other. Thè wheels 343 and 344
are rotatably mounted by any suitable means such as stationary
elongated bearings 345 and 346 rigidly secured to the print
head assembly frame 32 "o Toothed drivers or pinions 347
and 348 are secured to respective shafts 349 and 350~ The
shafts 349 and 350 are rotatably mounted by the print head
as~embly frame 32''. Manually engageable knobs 351 and 352
are secured to the respective shafts 349 and 3S0. By shifting
the shaft 349 and its pinion 347 to the selected axial position
by use of the knob 351, the pinion 347 is brought into meshi.ng
enga~ement with teeth 353 of the wheel 343 corresponding to
a selected printing member 70 in the orm of a selected end-
less printing band 354 Thereupon, manual rotation of the
knob 351 causes the gear 347 to arive the selected wheel 343
to be driven to advance the respective printing band 354 to the
selected po.sition to print the selected data on the ~ecord
member. ~y shifting the shaft 349 and thereafter rotating
the shaft 349 each printin~ band 354 in the series or any one
of them, can be set to print the desired data There is a
printing band 35~ individual to and in engagement with each
of the wheels 343. Each wheel 342 has about the same width
as the associated band 354. The printing bands 354 are shown
to be of the endless type and to have teeth 355 on their
undersides in engagement in notches 356 on the periphery of
the respective wheel 343. Similarly, by shifting the shaft
350 and its pinion 348 to the selected axial position by use of
the knob 352, the pinion 348 is ~rought into meshing en~a~ement
: -30-
.
~83~1~
with teeth 357 of the wheel 344 corresponding to a selected
printing member 70 in the form of a selected endless printing
band 358 or 358'. It is preferred to construct the printing
ba~ds 354, 358 and 358' of resilient material such as rubber. ~ ..
Therefore, manual rotation of the knob 352 causes the gear 348
to drive the selected wheel 344 to advance the respective
printing band 358 or 358' to a position to print the selected
data on the record member. By shifting the shaft 350 and the
gear 348 and thereafter rotatin~ the shaft 350 each printing .. .-.
bands 358 and 358' in the series, ~r any of them, can be set :
to print the desired data.
There is a support assembly generally indica~ed :.
at 359 for the printing.bands 354 and there is a support :
assembly ~enerally indicated at 360 for the printing bands 358
.. 15 and 358'. The support assembly 360 is shown in FIGURES20 through
26. With reference initially to FIGURE 22, the support assembly .
360 is shown to be of modular construction. The assembly 360
. is illustrat~d as having a support frame 361 with an elongated
section 362 and integrally formed end plates 363 and 364.
20 The frame 361 mounts a support assembly module generally . -:
indicated at 396.
Outwardly extending flanges 365 and 366 of the support
~ rame 361 have respective threaded holes 367 and 368. Screws
,- 369 and 370 (FIGURE 21) threadably received in the respective - . .
f 25 holes 367 and 368 are used to adjust the tension on the printing
, bands 358 and 358' as best shown in FIGURE 11. The head 371
. . . . .
of the screw 369 bears against a shoulder 372 of the one end
:.. '~ , ' ' .
. :.
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~''' , ' ' - - . . .. . . . .
' '' ' . . ' , .: ' ' , ' ' '
: \~
~33~16
plate 32' of the print head assembly 32. The head 373
bears against a similar shoulder (not sh~wn) of the other
end plate 32'. Accord~n~ly, adjustment of the screws 369
and 370 will effect movement of the support assembly 360
toward or away from the wheels 344, that is, upwardly or
downwardly as viewed in FIGURE 20. Once the support assembly
360 has been adjusted, screws 374 and 375 threadably received
by the support frame 361 and which extend through an elongated
slot 376 in one end plate 32' and an elongated slot 377
(shown only by phantom lines in FIGUP~ 20) in the other end
plate 32' are tightened to lock the support assembly 360 in
the adjusted position.
Referrin~ again to FIGURE 22, the elongated section
362 of the support frame 361 has an elongated slot 378, an
elongated notch 379, and an elongated groove 380. The
space between the end plates 363 and 364 is occupied by
support members specifically in the form of wheels 381 and by
support members specifically in the form of wheels 382. The -~ -
wheels 381 are square and have relatively long sides 383, while
the wheels 382 are square and have relatively short sides 384.
The sides 383 and 384 have respective notches 385 and 386.
The wheels 381 axe individually rotatably mounted by a shaft
387 mounted by mounting and spacing members 388 and 395,
~, The members 388 are identical in construction and have notches
388a and 388b and a tang or projection 388c. The wheels 382
are individually rotatably m.ounted by a shaft 389 mounted by
mounting and spacin~ membcrs 390 The members 390 are identical
:~ and have notches 390a and 390b and a tang or projection 390c.
~s best shown in FIGURES 25 and 26, the printing
bands 358 have relatively long printing blocks 391, while
, .
i ~32-
1~8~416
Docket M-329-C
the printing bands 358' have relati~ely shor~ print~ng blocks
392. One of printing blocks 391 of one printing band 358 i9
illustrated as having bar-shaped printing element~ 393 for
printing machine readable code data and a character element
394 ox printing a corresponding human readable character;
the remainder of th~s printing band 358 can ha~e other
and different bar-shaped and corresponding character element~.
If desired, the printing blocks 391 can carry l~rge size
character elements (not shown) for printing a large human
readable character. It i~ apparent that the lar~e printing
block~ 391 and the small printing blocks 392 can print di~erent
sizes ~nd types of data. The invention provides an arrangement
by which the line can be composed of wheel~ 381 and wheels 382
in any arrangement. The printinq blocks 391 and 392 which are
supported by the respected wheel~ at the printing zone are
disposed in a row to print a line of data and lie on a common
plane. Shaft~ 387 and 389 are parallel.
With reference again to FIGURE 22, wheels 381 and
members 388 and one end mounting member 395 occupy only part
of the space between the end plate~ 363 and 364 o~ ~he support
~' .
frame 361. The remainder of the space is ocupied ~y the
support a~sembly module 396.
~` The module 396 includes a module frame 397 having
elongated groove~ 398 and 399. Tangs 390c of the member~ 3~0
fit into the groove 399. Each wheel 382 is provided with a
d~tent generally indicated at 400. Each detent 400 includes
a compression spring 401 and a plunger 402. The one encl~
o the spring~ 401 abut an elon~ated flange 403 of the module
frame 397, and the other ends of the ~prin~s 401 abut the ends
. ;.
' ' ' ' ' ':' '
- ` :
1~83~16
of the plungers 402. A plate 404 is secured to the module
frame 397 by screws 404' received in threaded holes 398'.
The plate 404 retains the springs 401, the plungers 402
and the mounting and spacing me~bers 390 in their assembled
relationship as shown in FIGURES 21 and 24. With reference
to FIGURE 24, it is seen that the module frame 397 has an
elon~ated projection 405 which fits a~ainst the lower end
o the.support as.semhly frame 3.61. The module frame 397
has an elongated projection 406 that fits into the notch
379 of the su~port assembly frame 361. The module 396 is
ec~red to the support assembly frame by a screw 407 which
extends throu~h the slot 378 and i9 threadably received in
a threaded hole 408 in the module frame 397.
'I It is apparent that part of the space between the
! IS end plates 363 and 364 is occupied by the module 396; the
.
remainder of the space is occupied by wheels 381 and associated
detents 410, and mounting and spacing membexs 388 and end plates
395 and 409. The lower end of the frame 361 is received in
not~hes 388a of members 388, 395 and 409,
Each wheel 381 is provided with a detent 410 which
includes a pair of springs 411 and a plunger 412, The springs
411 urge the plun~ers 412 into cletenting relationship with
respective wheels 381. The lower ends of the plungers 412
are concave as indicated at 412~ so that when the associated
:' 25 ~7heel 381 rotates a corner of the wheel 318 will ride on con-
~, cave surace 412' and ~he plunger 412 will travel a shorter
distance and the associated sprincJ 412 will be compressed to
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1~8~41~
a lesser degree than if the lower surface were flat as is the
lower surface 402' of the plunger 402. The ends of the plungers
412 have short flats 412 " to provide two-point detenting contact .
with associated wheels 381. ~ retainer plate 413 is secured to
the section 36~ of the support assembly frame 361 by screws ;'
413' received in respective threaded holes 414. The plate
has a top portion 415 with holes 416' through which the screws
413' extend~ a flange portion 417 joined to the top portion
415, and a retainer portion 418 joined to the top portion
415 which extends into notches 388b of the members 388, 395
and 409.
The illustrated arrangement shown in FIGURES 20
through 26, shows the support assembly 360 as composed in
part of a module 396 having small support wheels 382, and in
remainder of large wheels 381 and detents 410, members 409, :''
388 and 395. As viewed in FIGURES 21 and 22, the module 396
: comprises the left hand portion of the assembly 360 and the
wheels 381, the members 388, 3,95 and 409 comprise the remainder
o the assembly 360.~ If desired, the module 396 can comprise, ' '
the right hand portion of the assembly, or the central portion, ~.:
The module frame can be longer.or shorter than shown. The
assembly 360 can comprise two or more modules, such as the
module 396 and the remaining space or spaces can be compr~ised
of large wheels 381, members 409, 388 and 395 and detents 410
and a shaft of appropriate length like the shat 387. The
, assembly 360 can also be comprised o~ two or more modules,
, like the module 396, mounted end-to-end with one or more
modules having large wheels like the wheels 381 and with one
or more modules having small wheels li}~e the wheels 382.
`
-35~
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Docket M-329-C 1~83416
The support assembly 359 can be constructed using
the same components a~ the support agsembly 360 in any
desired arrangement.
With reference to FIGURE 2, the record members
37 are shown to be ~uided by a guide 108". The record members
37 are ~hown to comprise ticket~ arr~nged in a web and partially
severed by lines of perforation 37'. Control elements in the
form of notches 37" are disposed in the web in transver~e alignment
wi~h the perfora~ions 37'. A switch 436 is mounted by the
frame 31 in the path of the notches 37". The record member~
37 can a~ well comprise pressure sensitive labels carried on
a web of sup~orting material (not shown). To make a multi-
part ticket such as a two-part ticket ~or label) the web
would be severed at every other line of perforation 37'.
Referring to FIGURES 27 through 30, there ~s shown
diagrammatically a control svstem 420. The clutch 51 can be
operated by any suitable means such as the controls fully
dl~closed in above ~.S. Patent No. 3,228,601~ The clutch is
diagramma~ically illustrated as bein~ mechanically connected ,
by controls 422 disclosed in Patent No. 3,2~8,601 to a
control panel 421 having a start button 421'. The controls
422 can be set to o~erate the printing apparatus 30 for the
desired number of machine cycles. The desired number of cycles
i8 initiated by depressin~ start button 421'. At the end of
the cycles correspondin~ to the number to which the counter
(38 in Patent No. 3,228,601) is set, the clutch 51 is dis-
engaged. As indicated in FIGU~ES 1 and 27, a gear 52' i9
secured to the drive shaft 52. The gear 52' drives an idler
-36-
.
' ':, . ' . . ', ' '. ~ .' ' ~' "
~83416
. ... . . .
gear 423 which in turn drives a gear 424. The gear ratio
between the ~ears 52! and 424 is 2 to 1 so that the gear
424 rotates one-half as fast as the gear 52'. The gear 424 is .
seaured to a shat 425 to which cams 426 and 427 are secured. `~
The cam 426 is circular except for a pointed lobe 42a which
momentarily closes a switch 429 during one machine cycle and
which momentarily closes a switch 430 during the next machine
cycle. ~ith reference to FIC.URE 3, it will be recalled that
at the initial or rest position of the machine and also at
the initiation of a machine cycle the shaft 52 is in an ~it
initial position such that the crank pin 56 is in the position
shown by phantom lines 56' in FIGURE 3. Thi5 position corresponds
to the 0 position of the cams 426 and 427. The switch 429 is
at the 150 position of the cam 426 which, because of the speed
reduction effected between gears 52' and 424, corresponds to
; the 300 position of the crank pin 56. The switch 430 is at the
J 330 position of the cam 426 which corresponds to the 300 :
position of the crank pin 56. The cam 427 is circular and mounts :.
~ an adjustable pointed cam lobe 431 best shown in FIGURE 28.
.~, 20 Switches 432, 433, 434 and 435 are in the path of the cam lobe
. 431 when the cam lobe 431 is in the solid line ~osition shown in
. FIGUP~E 28. The switch 432 is at the 67 position of the cam
. 427 which corresponds to the 134 position of the cra~ pin 56.
The switch 433 is at the 150 position of the cam 427 which
corresponds to the 300 position of the crank pin 56. The switch
434 is at the 247.position of the.cam 427 ~hich corresponds
, to the 134 positi.on of the cran~ pin 56 The switch 435 is at
the 330 position of the cam 427 which corresponds to the 300
position of the crank pin 56. When screw 427' is loosened
.
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: -37-
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~8~41~
an~ the lobe 431 is shifted tD the phan*om line position
indicated by phantom lines 431' and the `screw 427~ is
thereupon tightened, the switches 432 and 433 are out of the
path of the lobe 431 and hence the switch 432 will not be
closed and the switch 433 will not be opened upon rotation
of the cam 427. If the lobe 431 is completely removed upon
unscrewing the screw 427', none of the switches 432, 433, 434
or 43S will be in the path of the lobe 431 and hence none will
be operated during rotation of the cam 427.
With refexence to FIGURE 30, a lead 437 is
directly connected to the switches 429, 430 and 436. A switch
438 connects the switch 436 and a node 439. The switches 429
and 430 and one side of winding 440 of a relay 441 are also
connected to the node 439. The other side of the winding 440
is connected to one side of a winding 442 of the solenoid
154. The other side of the winding 442 is connected to a lead
( 443.
I With reference to FIGURE 29; a lead 444 is connected
directly to the switches 432, 433 and 434. A switch 435 and
; 2n a switch 445 which forms part of a relay 446 are connected in
series with the switch 433 to a node 447. The switches 432 and
433 and one side of a winding 448 of the relay 446 are also
connected to the node 447. The other side of the winding 448
i~ connected to one side of a winding 449 of the solenoid 186.
The other side of the winding 449 is connected to a lead 450.
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~834~
Assuming that the apparatus 3-0 is set to print s~x
one-part tickets 37 the start button 421' (FIGURE 1) of the
controls 422 is depressed which efects engagement of the
clutch 51, The shaft 52 starts to rotate, causing the gears
52'~ 423 and 424 and cams ~26 and 427 to rotate. ~s the cam
427 rotates throu~h 67, the switch 432 is momentarily closed
to complete a circuit from the line 444, through the switch
432, through the winding 448 of relay 446, through the winding
449 of the solenoid 186 to the line 450, thereby completing
a circuit. Energization of the relay winding 448 causes closure
of the switch 445, thereby completing a holding circuit from
t~e 11ne 444, through switches 433, ~35 and 445, through the
windin~s 448 and 449 to the line 450. Energization of the
solenoid 186 pivots the links 178 and 180 counterclockwise
from the position shown in FIGURE 9 into abutment with end
198 of the plate 197. As the drive shaft 52 continues to
rotate the platen assembly 33 is driven counterclockwise, and
links 178 and 180 move ~enerally upwardly together with the
platen assembly 33 until respective stop shoulders 184 and
185 contact the stop face 196 o the plate 197. The trailing
ed~e o~ the record member 37 which was previously printed is in
alignment with the knife 45; as the platen assembly 33 moves
counterclockwise to the fullest extent as shown in FIGURE 8,
the movable knife 47 has moved from the position shown in
~' 25 FIGURE 9 to the position shown in FIGURE 8, thereby severing
the ~reviously printed ticket. When the platen assembly 33
is in the position shown in FIGURE 8, the drive shaft 52
has rotated through 275 and the cams ~26 and 427 have rotated
`; throu~h 137,5. The cam lobe ~31 opens the switch 433 when
., , , , ' ~''''' ~
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~L~8~416
Docket M-329-C
the cam 427 has rotated through 150, therehy deenergizin~
the solenoid 186. The spring 188 immediately causes the '`
links 178 and 180 to return to their clockwise ~ositions
~FIGURE 9). When the drive ghaft 52 has rotated through
300, the platen 44 has moved downwardly ~uficiently to
permit the web of record members 37 to be advanced; at
this instant in the machine cycle the cam 426 has rotated
through 150 and the ~witch 429 is momentarily closed,
completin~ a circuit from the lead 437, through the switch
429, through windings 440 and 442 to the lead 443. Energization
of the rela"v winding 440 causes closure of the switch 438, and
energization of the solenoicl 154 causes the control member
145 to pivot to the phantom line ~osition shown in FIGURE 18
out of contact with the 0-ring 126, thereby cau~ing the clutch
120 to engage to drive the web of record members 37. As soon
as the switch 436 no longer senses a notch 37", the swLtcll 436
closes. Now that switches 436 and 438 are both closed, a
holding circuit from the lead 437 through switches 436 and 438,
and through the windings 440 and 442 is completed. As long
as the solenoid 154 is ener~ized the control member 145 i~
held away from the 0-ring 126 and the clutch 120 is engaged
to cause the advance of the web. As ~oon a8 the ~witch 436
senses tlle next notch 37", the switch 436 opens to deener~ize
the solenoid 154, 80 that the sprin~ 156 pivots the control
member 145 to the ~olid line position shown in FIGURE 18 to
effect disengagement of the clutch 120. As the clutch 51 :'",
re~ains en~a~ed, the drive shaft 52 continues to rotate through
., ' ~, .
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3341~
the 360 ~or 0) position and the cams 4~6 and 427 continue
to rotate through t~eir 180 positions. When the drive
shaft 52 has rotated through 360 the feeding of the web
has already been completed. When the cam 427 has rotated
throuyh 247 the switch 434 closes momentarily to ener~ize
the windings 448 and 449 and to close the switch 445 to
establish the preYiously described circuit for the purpose
previously described, When the cam 426 and 427 have rota.ted
through 330 the lobe 431 of the cam 427 opens the switch
435 to deenergize the solenoid 186, and the lobe 428 of the
cam 426 closes the switch 430 to energize the windings 440
and 442 to consequently close switches 436 and 438 as previously
described to maintain energization of the solenoid 154 to advance
the web until the switch 436 again senses a notch 37" in the web.
The drive shaft S2 and the cams 426 and 427 and the machine
continues to cut, print and feed until the counter of the
controls 422 has reached the sixth count at which time the
.
clu*ch 51 is disenga~ed,
, If it is desired to provide two-part tickets, the
~: 20 cam lobe 431 is shifted to the phantom line position shown by
' lines 431' in FIGURE 28, in which event the cam lobe 431
,~ never closes switch 432 or opens switch 433 . Accordingly,
i ~ the knife 47 is only op~rated at every other rotation of the
.' drive shaft and is only under the control of switches 434 and
Y~ 25 43~,
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Docket M-239-C 10 8 34~ 6
If it i8 not desired to sever automatically
any of the ticketg 37 from the web, the cam lobe 431 i8
removed, in which event neither the switch 432 nor the ~witch
434 is ever closed and neither the switch 433 nox the ~witch
435 is ever opened~
Another embodiment of an inking mechani~m 35A
is illustrated in FIGURES 31 through 35, in conjunction with
the printing apparatus 30A and the fountain 211 illustrated by
phantom line~ in FIGURE 31. The printin~ apparatu~ 30A
differs from the apparatus 30 in that part of the drive
mechanism for the ink roll 251 is of the same con~truction
di3closed in above U~S. patent No. 3,180,2547 in that patent a
barrel cam 160 drives an arm 166 which in turn drives a feed
finger carria~e 167, and that mechani~m which is shown in
detail in that patent and which is shown diagrammatically in
FIGURE 31 of the drawin~s of this application provides a
part of the ink roll driving mechanism o~ the inker or
inking mechanism 35A. More specifically, a barrel cam 451
~, (160 in the patent) secured to the shaft 52 1149 in the patent)
rocks or pivots an arm 452 ~166 in the patent) about a pivot
453 (179 in the ~atent) during one complete revolution to drive
a carriage 454 (167 in the patent). The carriage 454 is
.. :
mounted by a ~uide or ~ay 45S ~ecured ~o the platen as~embly
33 (20 in the patent). The record feed mechani~m is the
~ame in the printing apparatus 30A as in the apparatus 30 and
.. ~ . .
consequently the carriage 454 is not used to feed the record
a3 is true in the patent.
.
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1~334~
A cam track 456 having a cam ~roove 457 is secured
to the carxiage 454. A roller 458 captive in the cam groove
457 is carried by an arm 459 of a bell crank 460. The bell
crank 460 is pivotally mounted to the frame 31 of the apparatus
30A by a pivot pin 461. The bell crank mounts a pivot pi~ 462. .~.
A p.air of. iden.~ïcal. arms~,463 and 464 are pivotally
mounted by pivot pins 465 and 466 to end plates 32' of print
head assembly 32 of the apparatus 30A. The arms 463 and 464
rotatably mount the inlc roll 251. Spa.ced apart ide~tical con-
necting rods or links 467 ana 468 are connected at their one~
ends respectively to the arms 463 and 464 by pivot pins 469
and 470 and at their other ends to the pivot pin 462.
With reference to FIGURE 32 r one o~ the connecting
rods 467 and 468, namely the connecting rod 468, is.shown in
section. The connectin~ rod 468 includes,a rod 471 suitably
connected by a connectox 472 to the pivot pin 470, The rod ' .. ,
471 has a threaded section 473 which threadably receives nuts
. : 474 and 480~ The nut 474 has an annular tubular section 475 :.
~ received about threaded section 473 in an open-ended bore 476
,:. 20 in a connector 477. The section 475 abuts a shoulder 478 at :
the end of the hore 476. A loc]- nut 479 can be tightened against
, ~ the nut 47~. The nut 480 has an annular tubular section 481 ~''
j : received about threaded section 473 slidably received in a bore
j 482 in the connector 477. A lock nut 483 can be tightened against .. ~
`,: 25 the mlt 480. A co~pression spring 484 is received in the bore ~:
,.~ 482 about the threaded section 473 between a shoulder 485 and
one end of the tubular section 481. By adjusting the nuts 474
.
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1~83~6
and 480 relatively toward or away from each other the path
of travel of the ink roll 251 can be adjusted and the spring
484 can be compressed the desired amount. When the ink roll .
251 is in the position shown in FIGURE 32, the roller 458 is
near the end of the cam groave 457 and with the ink roll 25I
having inked the printing members.
The ink roll 251 which inclu~es a shaft 258 and
carries the wheels 254 and 255 (FIGURE 15) is rotatably mounted
in identical arms 463 and 464. A fragment of the arm 464 is
shown in detail in FIGURES 33, 34 and 35, A slide 486 is slidably
mounted in a channel-shaped section 487 of the arm 464. The
slide 486 has a tab 488 which extends into an adjoining groove
489. A compression spring 490 is disposed in the groove 489
in abutment with the tab 488 and with a shoulder 491 at the
end of the groove 489 at the lower end of the arm 464 opposite
from the pin 466. The slide 486 has an integral tubular beariny
492 which received the end of the shaft 258, As the arms 463
and 464 move between the extreme positions shown in FIGURES
31 and 32 , rollers 254 and 255 follow cams 262 and 263 and the
- ~20 respective springs 490 com~ress and eY.tend.
Referrin~ again to FIGURES 31 and 32, the roller
458 is initially in the position indicated at 458' by phantom
lines, the in~ roll 251 being in the position indicated by
phantom lines 251', As the barrel cam 451 starts rotating
the platen assembly 33 pivot~ clockwise (FIGURES 31 and 32)
and the arm 452 pivots clockwise so that the roller 458
,'
:, '
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.
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4~L6
- moves to near the end of the cam groove 457 as shown by
solid lines in FIGURE 32, causing the ink roll 251 to be
driven into ink-transferring relationship with the printing
members. Continued rotation of the barrel cam 451 causes `~
S the cam 456 to be driven to the position shown in FIGURE 31
in which the ink roll 251 is in ink receiving contact with
the ink transerring roll 213. Continued rotation of the
; barrel cam 451 returns the roller 458 to the initial position
shown by phantom lines 458'. The roll 251 is now out of the
,: 10 path of the platen assembly 33 as indicated by~phantom lines
'' 251'. .
I Other embodiments and modifications of this
1, ln~ention will suggest themselves to those skilled in the
art, and all such of these as come within the spirit of
this invention are included within its scope as best defined
~ by the appended claims.
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