[0001] This invention relates to passbook handling apparatus of the kind including a print
head movable across said apparatus in a direction perpendicular to a passbook feed
path direction and cooperating with a platen during a printing operation on said passbook;
and a magnetic head adapted to cooperate with a magnetic recording region during a
magnetic read/write operation on said passbook.
[0002] The invention has a particular application where the passbook is used in a financial
instruction and wherein transaction information is printed and magnetically recorded
on the passbook.
[0003] US Patent No. 3,978,964 discloses passbook handling apparatus wherein a print head
is mounted in a print head carriage which is driven across the passbook and cooperates
with a platen to effect a printing operation. The apparatus also includes a magnetic
read/write head mounted in a magnetic head carriage which is driven across the passbook
to effect a read/write operation in a magnetic strip which is located on the passbook.
The physical size of the known apparatus is large in view of the need to accommodate
a drivable carriage dedicated to the magnetic read/write head.
[0004] It is an object of the present invention to provide passbook handling apparatus of
the kind specified which is of compact construction.
[0005] Therefore, according to the present invention, there is provided passbook handling
apparatus of the kind specified, characterized by a carriage carrying said platen
and said magnetic head, wherein said print head and said carriage are adapted to be
driven in synchronism in said direction during said printing operation and during
said magnetic read/write operation.
[0006] One embodiment of the present invention will now be described by way of example,
with reference to the accompanying drawings, in which:-
Fig. 1 is a perspective view of passbook handling apparatus incorporating the subject
matter of the present invention;
Fig. 2 is an elevational view illustrating height adjusting means for the read/write
mechanism;
Fig. 3 is an illustration of a drive arrangement for the print head assembly and the
read/write mechanism;
Fig. 4 is a plan view of a passbook in the open condition; and
Fig. 5 is a plan view of the passbook and also showing conventional read/write apparatus.
[0007] Referring now to the drawing, Fig. 1 is a perspective view showing an arrangement
for a printer 10 that includes a carriage 12, a platen 14, and an opposed print head
assembly 16. The print head assembly 16 is driven by suitable drive means (not shown)
in transverse manner on the printer 10. The carriage 12 is slidably carried on a guide
rod 18 which is coupled to side brackets or plates 20 and 22. The carriage 12 is driven
by a lead screw 24 which is journaled in the side brackets 20 and 22. The lead screw
24 has a pulley 26 secured to the left end thereof and a belt 28 is trained around
the pulley 26 and around a pulley 30 secured to the end of a shaft 32 of a motor 34.
A read/write magnetic head 36 is supported by the carriage 12 and is positioned adjacent
the platen 14.
[0008] The right and left brackets 20 and 22 are supported on respective cams 38 and 40
which are provided on a shaft 42 suitably journaled on the printer 10. The carriage
12 which carries the platen 14 and the magnetic head 36 is supported by means of the
right and left brackets 20 and 22 engaging the cams 38 and 40 of the shaft 42. The
shaft 42 has a gear 44 secured to the right end thereof which gear meshes with a gear
46 on the end of a shaft 48 of a stepping motor 50. The carriage 12 is caused to be
raised and lowered by rotational driving of the shaft 42 and the cams 38 and 40 by
the motor 50 wherein the gap between the print head 16 and the platen 14 is varied
to adjust or compensate for passage of a record medium such as a passbook 52 (see
also Fig. 3).
[0009] A detection arm 54 is secured to the left bracket 22 and extends in one direction
therefrom and is positioned to be detected by a sensor 56. The sensor 56 is attached
to an end 58 of a support arm 60. The support arm 60 is carried on a shaft 62 and
such arm 60 supports a lower roller 64 that is opposed to an upper roller 66 carried
on a shaft 68. The lower roller 64 is movable and is swingable on the shaft 62 whereas
the upper roller 66 is in fixed position relative to the roller 64. The movable roller
64 and the fixed roller 66 are arranged to grip the passbook 52 therebetween as the
passbook is conveyed along the feed path in the printer 10. A coil spring 70 is connected
to the end 58 of the arm 60 and to a suitable frame portion of the printer 10 to urge
the roller 64 against the roller 66 for gripping the passbook 52. The upper roller
66 and the lower roller 64, in effect, operate as a passbook thickness detecting mechanism.
The sensor 56 detects upward movement of the platen 14 and the read/write head 36
on the carriage 12.
[0010] In order to read data from and to write data on the passbook 52, it is necessary
to have the read/write head 36 contact a magnetic stripe on the passbook.
[0011] Fig. 4 is a plan view of the passbook 52 in the open condition and showing an upper
portion 72 and a lower portion 74 of the passbook with columns provided for printing
data or information relative to business transactions. A fold line 75 joins the portions
72 and 74. The column headings may include the line number, date, repayment, deposit,
remarks, and balance in the account.
[0012] Fig. 5 illustrates the passbook 52 in the open condition and in position for moving
through the printer 10 in the direction of the arrow 76. The passbook 52 is moved
into position for reading a magnetic stripe 78, oriented in the horizontal or transverse
direction, or for reading a magnetic stripe 80, oriented in the vertical or passbook
movement direction. The magnetic head 36 is applicable for reading and recording data
associated with the magnetic stripe 78 and a magnetic head 82 is applicable for reading
and recording data associated with the magnetic stripe 80. In this regard, it is seen
that the magnetic head 36 is designed to be movable across the printer for operating
with the magnetic stripe 78, whereas the magnetic head 82 is fixed in position at
the left side of the passbook 52 for operating with the magnetic stripe 80. In addition
to the movement of the carriage 12 and the magnetic head 36 across the printer 10,
it is necessary to move the magnetic head in a vertical or up and down direction to
accommodate the thickness of the passbook 52.
[0013] As seen in Figs. 1 and 2, the magnetic head 36, which is movable in the up and down
direction, is pivoted on a pin 84 coupled to upstanding portions 86 and 88 of a guide
member 90 supported on the carriage 12. The guide member 90 is in the form of an angle-type
strap and is designed to provide for adjusting the height of the magnetic head 36
in the up and down direction. A downwardly extending support pin 92 is engageable
with and supports the guide member 90. The carriage 12 has an opening therein for
slidably receiving the support pin 92, and a coil spring 94 is provided between a
top surface of the carriage 12 and the bottom surface of the guide member 90 (Fig
2.) for biasing thereof in the upward direction.
[0014] A roller 96 is journaled on a pin 98 secured to the bottom or lower portion of the
guide member 90. The roller 96 engages with and rolls along a lower edge 100 of a
height adjusting bar 102. An upward force on the guide member 90 is applied by action
of the spring 94, while upward movement of such guide member 90 is limited or restricted
by the roller 96 engaging with the lower edge 100 of the bar 102. Accordingly, as
the height adjusting bar 102 is urged or moved in the downward direction, the guide
member 90 is moved down against the action of the spring 94, thus lowering the magnetic
head 36. A companion fixed bar 101 is positioned between the downwardly extending
portion of the guide member 90 and the height adjusting bar 102. The companion bar
101 is secured at the ends thereof to suitable frame portions of the printer 10. A
pin or stud 103 is secured to the bar 101 and extends through a curved slot 107 in
the bar 102. A C-clip or the like 105 is placed on the pin 103 to retain the bar 102
on fixed bar 101. The curved slot 107 and the pin 103 operate to guide the bar 102
in the height adjustment of the magnetic head 36.
[0015] Fig. 2 is an elevational view of the height adjusting bar 102 and associated parts
required for the adjusting operation of the magnetic head 36. The length of the lower
edge 100 of the bar 102 is greater than the distance moved by the carriage 12 across
the printer 10. The carriage 12 moves in the horizontal direction across the printer
10 while the roller 96 of the guide member 90 engages with the lower edge 100 of the
adjusting bar 102 (Figs. 1 and 2).
[0016] An L-shaped arm 104 is pivoted on a pin 106 located and secured at the left side
of the bar 102. The L-shaped arm 104 has a pin 108 fixed thereto at the other end
of the arm from the pin 106. The central part of the L-shaped arm 104 is pivoted on
a pin 110 secured to a suitable frame portion of the printer 10. The pin 108 of the
arm 104 engages with a slot 112 which is formed in an adjacent L-shaped arm 114 at
one end thereof. The other end of the L-shaped arm 114 is pivoted on a pin 116 which
is secured to a suitable frame portion of the printer 10. The central part of the
L-shaped arm 114 is pivotally connected by a pin 118 to one end of a link 119. The
other end of the link 119 is pivotally connected by a pin 121 to a plunger 120 of
a latching solenoid 122 which is secured in suitable manner to the printer 10. The
link 119 enables a smooth operation of the plunger 120 relative to the arm 114.
[0017] A U-shaped arm 124 is pivoted at one end thereof on a pin 126 located and secured
at the right side of the height adjusting bar 102. The central part of the U-shaped
arm 124 is pivoted on a pin 128 secured to a suitable frame portion of the printer
10. A pin 130 is attached to the other end of the U-shaped arm 124 from the pin 126
and one end of a spring 132 is connected to the pin 130. The other end of the spring
132 is connected to a suitable frame portion of the printer 10. The spring 132 operates
to urge the height adjusting bar 102 toward the right or in the direction of the arrow
134. In the illustration of Fig. 2, the bar 102 is urged toward the right and the
magnetic head 36 is in a raised position relative to the platen 14.
[0018] The structure and arrangement of the L-shaped arm 104 and of the U-shaped arm 124
are designed to provide equal dimensions in certain aspects of the height adjusting
mechanism. The distance between the pins 106 and 110 of the L-shaped arm 104 is the
same as the distance between the pins 126 and 128 of the U-shaped arm 124. The angle
111 between a line through the pins 106 and 110 and a horizontal line through the
pins 110 and 128 is the same as the angle 131 between a line through the pins 126
and 128 and the horizontal line through the pins 110 and 128. The equal dimensions
between the pins 106, 110 and pins 126, 128 and the equal angles 111, 131 enable the
height adjusting bar 102 to be raised and lowered in a straight, horizontal manner.
[0019] When the solenoid 122 is energized, the plunger 120 moves in the direction of the
arrow 136 (Fig. 2) and pulls the link 119 to cause the L-shaped arm 114 to be rotated
in the counterclockwise direction about the pin 116. In association with such counterclockwise
rotation of the arm 114, the pin 108 of the adjacent L-shaped arm 104 engages with
the groove 112 to cause the L-shaped arm 104 to be rotated in the clockwise direction
about the pin 110. Accordingly, since the L-shaped arm 104 and the height adjusting
bar 102 are coupled to each other at one end of the bar 102, the bar is moved in a
direction as shown by the curved arrow 138. During such movement of the height adjusting
bar 102, the lower edge 100 thereof is maintained on a substantially level plane.
As a result of this motion, the height adjusting guide member 90 is lowered by means
of the lower edge 100 of the bar 102 being engaged with the roller 96 and which motion
causes the spring 94 to be compressed and thereby to lower the magnetic head 36.
[0020] When the solenoid 122 is de-energized, the height adjusting bar 102 is moved under
the action of the spring 132 in the direction opposite that shown by the curved arrow
138. The bar 102 can be moved in a vertical direction as shown by the arrow 140 under
the actions of the L-shaped arms 104 and 114 and of the U-shaped arm 124 while maintaining
the lower edge 100 of the bar 102 in a substantially parallel condition. Accordingly,
the carriage 12 can be moved in a horizontal direction across the printer 10 while
maintaining the height or elevation of the magnetic head 36 at a predetermined value
regardless of the position (upper or lower) of the height adjusting bar 102.
[0021] Fig. 3 illustrates a drive arrangement for the print head 16 and the carriage 12.
The carriage 12 is supported by the lead screw 24 and the guide rod 18 (Fig. 1) for
transverse movement on the printer 10. The print head assembly 16 is supported by
a lead screw 156 and a guide rod 158 for transverse movement as shown by the double-ended
arrow 160. The passbook 52 is shown in position between the print head assembly 16
and the carriage 12 for printing operations and for read/write operations covering
the business transaction. A print head element 162 is disposed opposite the platen
14 and the read/write head 36 is disposed adjacent the platen 14. A print head guide
164 is provided for guiding and placing the passbook 52 in position relative to the
read/write head 36.
[0022] A motor 142 drives a pulley 144 around which is trained a belt 152 for driving a
pulley 146 and a pulley 148 on the right end of the lead screw 156. A belt 154 is
trained around the pulley 148 for driving a pulley 150 on the right end of the lead
screw 24. It is thus seen that the drive arrangement shown in Fig. 3 provides for
synchronous movement of the print head assembly 16 and the carriage 12 across the
printer 10.
[0023] In the operation of the mechanism of the present invention and referring to Fig.
1, the passbook 52 is inserted into position for printing operation and for read and
write operations in a business transaction. The carriage 12 with the platen 14 and
the magnetic read/write head 36 carried thereon and the print head assembly 16 are
at the left side of the printer 10 at the start of the transaction. The carriage 12
is lowered by means of the cams 38 and 40, as described above, so as to facilitate
the passing of the passbook 52 between the print head assembly 16 and the magnetic
head 36, as shown in Fig. 3. The print head guide 164 along with the platen 14 and
the magnetic head 36 act as upper and lower guide means for the passbook 52 as it
is being conveyed or transported past the printing station.
[0024] The passbook 52 is received and gripped by the rollers 64 and 66 (Fig. 1) and the
thickness of the passbook is detected. The cams 38 and 40 on the shaft 42 are rotated
by the motor 50 through the gears 44 and 46 which action raises the brackets 20 and
22 and the carriage 12. When the detection arm 54 on the bracket 22 is detected by
the sensor 56, the motor 50 stops and the thickness of the passbook 52 is determined
by operation of the several individual elements. A predetermined count of the number
of steps required of the stepping motor 50, under conditions when a passbook 52 is
not present between the print head assembly 16 and the platen 14, is stored in memory.
In this regard, the position of the detection arm 54 is associated with the predetermined
count of the required steps when a passbook 52 is not present. The predetermined count
of the steps is then compared with the actual number of steps of the stepping motor
50 when the passbook 52 is present to determine the thickness of the passbook. When
the passbook 52 is gripped between the rollers 64 and 66, the roller 64 is lowered
by an amount corresponding to the thickness of the passbook 52 and the sensor 56 is
lowered by an equal amount subject to the difference in distances of the roller 64
and the sensor 56 from the pivot shaft 62. Therefore, the detection arm 54 is detected
in a position which is lower by an amount which corresponds to the thickness of the
passbook 52 and the amount that the carriage 12 is raised. In this regard, it is noted
that the number of steps taken by the stepping motor 50 is smaller when a passbook
52 is present and is gripped by the rollers 64 and 66 when compared with the number
of steps taken by the motor 50 when no passbook is present. The thickness of the passbook
52 is determined from the relative positions of the individual elements wherein the
gap between the print head element 162 of the print head assembly 16 and the platen
14 can be adjusted to an optimum value for printing operation. As an alternative,
the detecting arm 54 and the sensor 56 can be calibrated to provide for suitable gaps
for a number of printing operations dependent upon the thickness of the passbook 52
at the printing station.
[0025] After the gap between the print head element 162 and the platen 14 has been adjusted
by positioning the carriage 12, the printing operation is performed. The printing
operation is performed under the control of a control unit (not shown). During the
printing operation, the print head assembly 16 and the platen 14 are positioned in
opposed relationship and the print head assembly 16 and the carriage 12 are driven
in synchronous manner. In this, regard, the print head assembly 16 and the carriage
12 may be driven with separate drive means or the print head assembly 16 and the carriage
12 may be driven from the same motor, as 142 in Fig. 3.
[0026] In a magnetic reading/writing operation, the passbook 52 is conveyed or transported
in a manner and to a position wherein the magnetic stripe 78 (Fig. 5) is located directly
above the magnetic head 36. The magnetic head 36 is located at the left side of the
print station and the height or elevation of the carriage 12 with the magnetic head
36 and the platen 14 is adjusted and maintained at the value required for the correct
printing gap. In the reading/writing operation, the magnetic head 36 is moved into
position to contact the magnetic stripe 78. In this regard, the head 36 is moved should
be raised to a position higher for a read/write operation than for a printing operation.
This assists in preventing damage to the magnetic stripe 78 by the platen 14. In such
read/write position, the magnetic head 36 is brought into contact with the magnetic
stripe 78. The magnetic head 36 is raised by means of the height adjusting mechanism
shown in Fig. 2. When the magnetic head 36 is raised, the passbook 52 is gripped by
the rollers 64 and 66 and is confined between the print head assembly 16 and the magnetic
head 36 so that the magnetic head 36 comes into contact with the magnetic stripe 78.
It is noted that pressing of the passbook 52 by the print head assembly 16 on the
side opposite that of contact of the magnetic head 36 with the magnetic stripe 78
and using the read/write apparatus in read/write operation, the carriage 12 and the
print head assembly 16 move in synchronous manner as in printing operation (Fig. 3).
[0027] Referring again to Figs. 4 and 5, a passbook 52 in the open condition is shown passing
the printing station, as indicated by the double line 166 in Fig. 5. As mentioned
above, the passbook 52 includes the pages for the printed data or information and
includes the magnetic stripes 78 and 80 on the back cover of the passbook. The print
head assembly 16 moves in the direction of the arrow 168 and prints data in the lines
of the passbook 52. Reading/writing or recording operations of data are magnetically
performed by the magnetic head 36 which moves with the carriage 12 and operates with
the magnetic stripe 78. The magnetic head 82 is fixed in position relative to any
transverse movement and operates with the magnetic stripe 80. In the case of the two
magnetic heads 36 and 82 (Fig. 5), it is seen that separate drive mechanisms would
be required to drive the two magnetic heads in read/write operations of the magnetic
stripes on the passbook 52.
[0028] The present invention provides a carriage 12 that carries the platen 14 and the magnetic
head 36 as a unit across the printer, so that a separate carriage or conveying mechanism
is not required for the magnetic head 36. The magnetic head 36 moves across the printer
10 and reads data from the horizontal magnetic stripe 78 in a carriage traversing
operation. The magnetic head 36 may also be designed and constructed to read data
from a vertical magnetic stripe 80 wherein the magnetic head 36 may be oriented relative
to the stripe 80 so that the head 36 can be stopped in a predetermined position to
read the stripe 80. There is no need to change the reading and writing mechanism in
order to accommodate different kinds of passbooks and different arrangements of magnetic
stripes. The providing of the magnetic head 36 on the carriage 12 and along the print
line 166 enables miniaturization of the overall apparatus.
[0029] It is thus seen that herein shown and described is a passbook read/write mechanism
having a carriage 12 that carries both the printing platen 14 and the magnetic read/write
head 36 across the printer 10 and which mechanism includes an adjusting member 102
for changing the height of the read/write head 36 relative to the platen 14.
1. Passbook handling apparatus, including a print head (16) movable across said apparatus
in a direction perpendicular to a passbook feed path direction and cooperating with
a platen (14) during a printing operation or said passbook (52); and a magnetic head
(36) adapted to cooperate with a magnetic recording region (78) during a magnetic
read/write operation on said passbook (52), characterized by a carriage (12) carrying
said platen (14) and said magnetic head (36), wherein said print head (16) and said
carriage (12) are adapted to be driven in synchronism in said direction during said
printing operation and during said magnetic read/write operation.
2. Passbook handling apparatus according to claim 1, characterized in that said magnetic
head (36) is movably mounted by mounting means (90,92) on said carriage (12) for movement
in directions towards and away from said passbook feed path, and by height adjusting
means cooperating with said mounting means (90,92) and adapted to control said movement,
whereby the position of said magnetic head (36) relative to said platen (14) may be
changed.
3. Passbook handling apparatus according to claim 2, characterized in that said mounting
means (90,92) is provided with a roller (96) adapted to cooperate with shiftable plate
member (102) included in said height adjusting means whereby the height of said magnetic
head (36) relative to said platen (14) is maintained during the synchronous driving
of said print head (16) and said carriage (12) across said apparatus.
4. Passbook handling apparatus according to any one of the preceding claims, characterized
by sensing means (54,56) adapted to sense the thickness of said passbook (52).
5. Passbook handling apparatus according to claim 4, characterized in that said sensing
means includes a swingable member (60) carrying a sensor device (56) adapted to cooperate
with a detection member (54) associated with said carriage (12), and in that said
carriage (12) is movable towards said passbook (52) in dependence on the amount of
movement of said swingable member (60) when said passbook (52) engages therewith during
movement along said passbook feed path.