U.S. patent number 3,718,906 [Application Number 05/148,714] was granted by the patent office on 1973-02-27 for vending system for remotely accessible stored information.
Invention is credited to Robert W. Lightner.
United States Patent |
3,718,906 |
Lightner |
February 27, 1973 |
VENDING SYSTEM FOR REMOTELY ACCESSIBLE STORED INFORMATION
Abstract
A vending system includes a central station at which various
information stored on master recordings can be selectively accessed
by purchasers from any of multiple remote vending machines, the
accessed information being reproduced on cartridge-type storage
media at that vending machine. The cartridge, upon receiving all of
the selected information, is ejected from the vending machine for
the permanent use of the purchaser. In a preferred embodiment the
master recording medium comprises a plurality of endless master
tapes continuously driven by a common capstan. The master tapes may
contain commercially recorded music which is selectively
transferred to a magnetic tape cassette at a vending machine. The
master tapes may contain complete albums of recordings which are
automatically produced on the cassette, or alternatively may
contain a variety of solo recordings which can be individually
selected to create a new album of the purchaser's choice.
Inventors: |
Lightner; Robert W. (Cocoa
Beach, FL) |
Family
ID: |
22527009 |
Appl.
No.: |
05/148,714 |
Filed: |
June 1, 1971 |
Current U.S.
Class: |
379/77;
G9B/15.135; 360/92.1; 348/E7.071; 235/381; 360/69; 379/83; 725/100;
725/118; 725/92; 379/91.02; 379/101.01; 194/205; 360/15; 379/87;
340/5.9 |
Current CPC
Class: |
G11B
15/68 (20130101); G07F 17/305 (20130101); H04N
7/17318 (20130101); G11B 5/00 (20130101); H04N
2007/1739 (20130101) |
Current International
Class: |
G11B
15/68 (20060101); G11B 5/00 (20060101); G07F
17/30 (20060101); H04N 7/173 (20060101); G07F
17/00 (20060101); G11b 015/02 (); H04m 017/02 ();
H04q 009/00 () |
Field of
Search: |
;340/147R,147A,149A,162,174.1R,174.1CC,147 ;178/6.6A
;179/1.2E,2R,2A,6.3MA,6.3CC ;346/33M ;194/2,10,15 |
References Cited
[Referenced By]
U.S. Patent Documents
Primary Examiner: Yusko; Donald J.
Claims
I claim:
1. An information transmission and vending system, comprising:
a master storage medium located at a central station and containing
a plurality of stored information segments;
a plurality of vending machines, each located at a respective
location remote from said central station;
a signal transmission link for connecting said master storage
medium to one or more of said vending machines on call;
means for transmitting selected information segments via said
transmission link to calling vending machines;
wherein each vending machine includes:
a plurality of blank cartridge-type storage elements;
a duplicator responsive to information segments transmitted to said
vending machine for duplicating the transmitted information
segments on a blank cartridge-type storage element;
a selector unit actuable to provide coded signals identifying
selected information segments at said central station and calling
for connection between said vending machine and said master storage
medium;
ejection means for ejecting from said vending machine a
cartridge-type storage element when the latter has a predetermined
number of said information segments duplicated thereon; and
payment detection means for inhibiting duplication of selected
information segments at said vending machine in the absence of
payment in a prescribed manner.
2. The system according to claim 1 wherein said master storage
medium comprises a plurality of endless tapes, each have different
information segments recorded thereon, said central station
additionally including: a storage rack for said plurality of master
tapes, a plurality of playback heads, one head for each master
tape, and a common drive mechanism for continuously driving all of
said master tapes past its playback head.
3. The system according to claim 1 wherein said cartridge-type
storage elements are tape cassettes.
4. The system according to claim 2 wherein each of said endless
tapes includes a plurality of recording channels, wherein each of
said playback heads includes a like plurality of channels, one
channel for each recording channel on a master tape, wherein said
blank cartridge-type storage elements are respective tape
cartridges having a plurality of recording channels, one such
channel for each recording channel on a master tape, and wherein
said means for transmitting includes multiplexing means for
simultaneously transmitting signals recorded on all recording
channels of the selected master tape to respective recording
channels on a tape cartridge at a vending machine.
5. An information vending system, comprising:
a central station, including:
a plurality of endless master tapes on which information is
recorded;
a playback head for each master tape for converting information
recorded on said tape to information signals; and
a common driver mechanism for continuously driving all of said
master tapes past their playback heads;
a plurality of remote stations, each including a vending machine
comprising:
a plurality of blank tape cartridges;
a duplicator responsive to reception of information signals at said
vending machine for duplicating recorded information from said
endless master tapes on a blank cartridge;
a selector unit, actuable to indicate which of said master tapes is
to have its contents duplicated at said vending machine;
means for ejecting cartridges from said vending machine when said
cartridges have information duplicated thereon; and
payment detector means for inhibiting duplication by said
duplicator in the absence of payment in the prescribed manner at
said remote location;
and
central switching means responsive to actuation of said selector
unit at each remote location for transmitting information signals
from the playback head of a selected master tape to the vending
machine selecting that master tape.
6. The system according to claim 5 wherein the information recorded
on at least some of said master tapes is an album of commercial
audio recordings, wherein an entire selected album is transferred
to a blank cartridge at a selecting vending machine.
7. The system according to claim 6 wherein a start control signal
is recorded between successive audio recordings on said master
tapes, and wherein said vending machine includes means to inhibit
duplicating of received information by said duplicator until said
start control signal is received at said vending machine.
8. The system according to claim 7 wherein the information recorded
on at least some of said master tapes is a single commercial audio
recording, recorded repetitively with said start control signal
recorded before each repetition and a stop control signal recorded
after each repetition, and wherein said vending machine included
means for disabling said duplicator upon receipt of said stop
control signal and enabling said duplicator upon receipt of said
start control signal.
9. The system according to claim 6 wherein said payment detector
means includes a credit card terminal and remote data processing
means for detecting the validity of credit cards inserted in said
terminal by comparing indicia on said card against indicia stored
at said data processing means.
10. The system according to claim 9 wherein said data processing
means comprises: means for compiling charges incurred against each
credit card inserted in said terminal; and means for totalizing the
number of times each album is selected for vending.
11. The system according to claim 5 wherein said selector unit is a
standard telephone touch tone dialing unit.
12. The method of vending at remote locations commercial recordings
which are stored at a central location comprising the steps of:
storing a plurality of blank tape cartridges at each remote
location;
detecting payment tendered at each remote location;
generating coded signals in response to selection of said remote
location of a recording to be vended;
transmitting the selected recording from said central station to
said remote location in response to the generated coded
signals;
upon detection of payment tendered, positioning one of the stored
blank tape cartridges in position to receive the transmitted
recordings;
duplicating on the positioned tape cartridge the selected recording
transmitted from said central station; and
ejecting the tape cartridge containing the duplicated recording at
said remote location.
13. The method according to claim 12 further comprising the steps
of:
maintaining a record of the number of times each recording is
selected; and
providing periodic popularity ratings for said recordings on the
basis of said maintained record.
14. A system for vending, at remote locations, information stored
at a central station and recording the vended information on a
blank tape cartridge at said remote location, said system
comprising:
a central station, including:
a plurality of endless plural-channel master tapes on which
information is recorded;
a plural channel playback head for each master tape for
simultaneously converting information recorded on the plural
channels of said tape to respective plural information signals;
and
a common driver mechanism for driving all of said master tapes past
their playback heads;
a plurality of remote stations, each including a vending machine
comprising:
a duplicator responsive to reception of said respective plural
information signals at said vending machine for duplicating the
recorded information from said endless master tapes on said blank
cartridge;
a selector unit, actuable to indicate which of said master tapes is
to have its contents duplicated at said vending machine;
means for ejecting cartridges from said vending machine when said
cartridges have information duplicated thereon; and
payment detector means for inhibiting duplication by said
duplicator in the absence of payment in the prescribed manner at
said remote location;
and
common transmission means responsive to actuation of said selector
unit at each remote location for transmitting said respective
plural information signals from the playback head of the selected
master tape to the vending machine selecting that master tape.
15. The method of vending, at remote locations, commercial
recordings which are stored at a central location, said method
including the steps of:
detecting the insertion of a credit card into a credit card
terminal at a remote vending location;
transmitting indicia associated with the inserted credit card to
said central station;
processing the transmitted indicia to determine validity of the
inserted credit card and to charge a stored account associated with
a valid inserted credit card;
upon determination that an inserted credit card is valid, enabling
equipment at said remote vending location to permit generation of
coded signals in response to selection of a recording to be
vended;
transmitting the selected recording from said central station to
said remote location in response to the generated coded
signals;
duplicating on the positioned tape cartridge the selected recording
transmitted from said central station; and
ejecting the tape cartridge containing the duplicated recording at
said remote location.
16. The method according to claim 15 further comprising the step
of:
storing a plurality of blank tape cartridges at each remote vending
location; and
upon detection of a valid credit card into the credit card terminal
of a remote vending location, automatically positioning one of the
stored blank tape cartridges to receive the selected recording to
be transmitted from said central station;
wherein said step of ejecting includes ejecting the positioned tape
cartridge after duplication of the selected recording is
completed.
17. A vending system for transmitting selected remotely stored
information onto blank storage cartridges, said system
comprising:
a master storage medium located at a central station and containing
a plurality of stored information segments;
a plurality of vending machines, each located at a respective
location remote from said central station;
a signal transmission link for connecting said master storage
medium to one or more of said vending machines on call;
means for transmitting selected information segments via said
transmission link to calling vending machines;
wherein each vending machine includes:
a duplicator responsive to information segments transmitted to said
vending machine for duplicating the transmitted information
segments on blank storage cartridges;
a selector unit actuable to provide coded signals identifying
selected information segments at said central station and calling
for connection between said vending machine and said master storage
medium; and
payment detection means for inhibiting duplication of selected
information segments at said vending machine in the absence of
payment in a prescribed manner.
18. The system according to claim 17 wherein prescribed manner of
payment is via credit card, said payment detection means including
a credit card terminal, said system further including means for
detecting the validity of credit cards inserted in said credit card
terminal.
19. The system according to claim 18 further comprising processing
means for compiling charges incurred against each credit card
inserted in said terminal; and means for totalizing the number of
times each album is selected for vending.
20. The system according to claim 19 wherein said master storage
medium comprises a plurality of endless tapes, each having
different information segments recorded thereon, said central
station additionally including: a storage rack for said plurality
of master tapes, a plurality of playback heads, one head for each
master tape, and a common drive mechanism for continuously driving
all of said master tapes past its playback head, and wherein said
storage cartridges are tape cartridges.
21. The system according to claim 17 wherein said selector unit is
a touch tone dialing unit.
22. The system according to claim 17 wherein said means for
transmitting includes a CATV cable.
23. The system according to claim 17 further comprising interface
means for connecting said system to a data processor capable of
monitoring the number of times each information segment is selected
and computing billing information related to the selection of each
information segment.
Description
BACKGROUND OF THE INVENTION
The present invention relates to a method and apparatus employing a
vending machine concept to permit large scale rapid dissemination
of centrally stored information. More particularly, the present
invention relates to a system wherein purchasers at various vending
machine locations can obtain recordings of selected information
stored at a central station. The preferred embodiment of the
present invention is described herein as utilized for the sale of
commercial audio recordings; it is to be understood however that
the present system is applicable to the distribution and sale of
virtually any stored information, be it audio, video, etc.
The commercial recording industry, while immensely profitable, has
a number of logistics problems. For example, the recording
companies often cannot produce and distribute sufficient copies of
extremely popular recording within a period of time that is fast
enough to take advantage of the popularity peak for the recording.
Invariably there are lost sales by virtue of the fact that some
consumers cannot obtain copies of a recording until after the
popularity of that recording has ebbed. Another problem for the
recording companies is the large investment required in materials,
labor and equipment for reproducing thousands and sometimes
millions of copies of a recording.
On another scale, the retailer of commercial recordings, in order
to provide his customers with a large selection, must have a
considerable inventory investment. Quite often, because of changes
in the popularity of various types of music, the retailer is left
with stock that can only be sold below the retailer's cost.
Another phase of the problem in the recording industry may be
viewed from the point of view of the consumer. Often, in the case
of very popular recordings, the consumer must wait to obtain his
copy because the retailer is temporarily sold out. Another problem
faced by the consumer is his lack of choice in selecting the
recordings he wishes to purchase. Specifically, the vast majority
of recordings are albums containing a number of musical selections.
If the consumer wishes to obtain copies of only one or two of the
selections in an album, he is often forced to purchase the entire
album because the desired selections are not available as single
records. From the consumer's point of view it would be highly
desirable to permit him to group various individual recordings to
form an album of his own choosing.
It is therefore a broad object of the present invention to provide
a system and method for distributing recorded information to
consumers wherein the aforementioned problems are eliminated.
It is another object of the present invention to provide a system
and method whereby a recording company can place its product on the
market almost immediately while only producing a relatively small
number of recording copies.
It is another object of the present invention to provide a system
and method for distributing commercial recordings to the public
which permits the retailer to avoid large investments in record
copies.
It is still another object of the present invention to provide a
system and method for distributing recordings to the public wherein
the consumer can always obtain a copy of a currently popular
recording.
It is still another object of the present invention to provide a
system and method for distributing recordings to the public which
permit the consumer to group individual recorded selections into an
album of his own choice.
It is another object of the present invention to provide a system
and method for rapidly and efficiently disseminating advertising
messages.
SUMMARY OF THE INVENTION
In accordance with the present invention, a central computer master
tape center is installed in each major market area and services a
multiplicity of remote vending machines distributed throughout that
area. The master tape center includes storage media, such as
endless tapes, on which a large selection of recordings can be
easily and rapidly stored and changed. The master tape center
communicates with the various vending machines by means of any
suitable transmission media. Each vending machine offers to the
consumer a selection of anything stored in the master tape center.
The vending machine includes a high speed duplicator and a quantity
of recordable media, such as blank tape cassettes. The data
selected by the consumer is transmitted from the master tape center
to the vending machine where it is copied by the duplicator onto
the cassette which is then ejected from the machine. Payment by the
consumer may be in the form of currency, tokens, or credit cards
which permit the consumer to maintain an account that is maintained
current by a computer at the master tape center.
In a preferred embodiment of the invention, the master tape center
includes multiple endless tapes which are arranged to be
continuously driven by a common capstan. Each tape is individually
accessible from any vending machine serviced by the master tape
center.
BRIEF DESCRIPTION OF THE DRAWINGS
The above and still further objects, features and advantages of the
present invention will become apparent upon consideration of the
following detailed description of one specific embodiment thereof,
especially when taken in conjunction with the accompanying
drawings, wherein:
FIG. 1 is a functional block diagram of a preferred embodiment of
the present invention;
FIG. 2 is a front view in plan of a master tape transport cavity
rack employed in the system of FIG. 1;
FIG. 3 is a top view in plan of a single master tape transport
assembly utilized in the rack of FIG. 2;
FIGS. 4 and 4a are diagrammatic illustrations of the cassette
changer employed in the system of FIG. 1, wherein the modifications
of a commercially available cassette changer are specifically
represented;
FIG. 5 is a side view in plan of a cassette vending machine
mechanism employed in the present invention;
FIGS. 6 and 7 are top and bottom views respectively of a cassette
storage magazine turret employed in the mechanism of FIG. 5;
FIG. 8 is a partial view in perspective of the mechanism of FIG. 5
wherein the loading of cassettes into a duplicator is
diagrammatically illustrated;
FIG. 9 is a functional block diagram illustrating transmission and
multiplexing of signals between the master tape station and the
vending machines in the system of FIG. 1;
FIG. 10 is a logic diagram illustrating functional operation at
each vending machine in the system of FIG. 1;
FIG. 11 is a functional block diagram illustrating the operation of
control circuits located at the master tape center of the system of
FIG. 1;
FIG. 12 is a functional block diagram of an alternative approach to
signal transmission between the master tape center and the various
vending machines; and
FIG. 13 is a functional block diagram illustrating a second
alternative approach to signal transmission between the master tape
center and the various vending machines.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring specifically to FIG. 1 of the accompanying drawings there
is illustrated a system comprising a multiplicity of vending
machines 10(1), 10(2), . . . 10(n), all serviced by a common master
tape system 11 and a common computer system 12. Signal transmission
and switching between the vending machines 10 and the computer and
master tape systems is effected by unit 13, which in the preferred
embodiment represents an American Telephone & Telegraph special
wide band XY picture phone switching exchange, such as is presently
employed in the Pittsburgh, Pennsylvania area for picture phone
transmission. The picture phone transmission system responds to
dialed instructions entered at each vending machine to connect that
vending machine to a selected master tape so that the contents of
the latter can be transmitted to the vending machine. Appropriate
interface circuits 14(a), 14(b), 14(c) . . .14(N), are employed to
render the system compatible with the signal requirements for the
picture phone system.
Each vending machine 10 includes a touch tone dialing device 15
from which standard telephone dial lines extend to the central
picture phone office exchange 13. In addition a picture phone trunk
line extends from each vending machine 10 to the central office
exchange 13.
The master tape system includes a plurality of endless tapes, each
associated with a respective playback head, as described below.
Each playback head communicates with the central office exchange 13
by means of an appropriate picture phone trunk line and an
interface circuit 14. The computer system communicates with central
office exchange 13 via a plurality of dial lines, one dial line for
each master tape in master tape system 11.
The standard telephone dial lines control the special wide band XY
picture phone switching circuits at central office exchange 13,
thereby cross- connecting any incoming wide band picture phone
trunk line to any outgoing wide band picture phone trunk line. In
broad terms, a consumer pushes preestablished combinations of
buttons at touch tone device 15 in order to select which master
tape, or portion thereof, he wishes to have reproduced on a blank
cassette located at the vending machine.
Each of the master tapes may comprise one album of recorded
selections, each master tape running continuously to permit
multiple access to every album from any of vending machines 10.
Tone signals, recorded after each selection in every album, signal
vending machines waiting to receive that album so that reproduction
may commence between selections rather than in the middle of a
selection. Some of the master tapes, rather than have complete
albums recorded thereon, store only one selection; this permits a
customer at a vending machine to select that song, in addition to
other singularly recorded selections, to compose an album of his
favorite selections.
The finished product cassette ejected from the vending machine may
be of any format including two channel stereo quarter track format,
or four channel quadraphonic four track in-line format, depending
upon the program format on the master tapes. The electronics and
heads for both systems are preferably four channels so that either
format may be employed in the loading of the desired master tape.
In a two channel, quarter track format the two stereo channels are
duplicated simultaneously at the vending machine for both
directions of playback. This cuts the duplicating time in half,
thereby allowing a 30 minute cassette to be duplicated (all four
tracks, two in each direction) in the same time that a 15 minute
cassette would normally require. Importantly, duplicating can be
effected even though two tracks are running backwards without
adversely effecting the quality of playback. In the preferred
embodiment of the invention the standard C-30 (35 minute) cassette
is vended at vending machines 10. In the four-channel quadraphonic
format, playing time of the finished tape is half that of the
finished quarter stereo tape because all four tracks are played
back at the same time in the quadraphonic format. For such a system
it is preferable that the standard C-60 cassette (70 minutes) be
employed. Clearly, any length cassette or other tape cartridge may
be utilized.
Referring now to FIGS. 2 and 3 of the accompanying drawings, the
master tape system includes a plurality of flat rectangular master
tape transport units 21 which are adapted to be stacked in a tape
transport cavity rack 20. By way of example only, rack 20 is
illustrated as being capable of receiving thirty transport units
21, each at a respective shelf 22; however, it is to be understood
that any number of transport units 21 may be stacked in a single
cavity rack 20.
Master tape transport unit 21 includes a section of endless tape 23
stored in a bin 24 having an egress opening 25 and an ingress
opening 26 between which a section of tape 23 extends exteriorly of
bin 24. A master tape transport path extending between egress
opening 25 and ingress opening 26 includes the following elements:
A guide channel 27 defined between a portion of the wall of bin 24
and the exterior wall of transport unit 21; a series of tape guides
28; a four channel playback head 29; and pinch roller 30. Pinch
roller 30 is urged into driving position by spring 32 attached to
pinch roller pivot arm 31. The four output channels from playback
head 29 are electrically connected to respective contact pins 33
extending outwardly from the rear edge of the transport unit
21.
The rear edge of transport unit 21 includes a recessed portion
which extends to the point at which master tape 23 passes pinch
roller 30. This permits the master tape to be engaged between the
pinch roller 30 and a capstan 34 when the master tape transport
unit 21 is slid into rack 20 in one of shelves 22. Capstan 34, as
viewed in FIG. 2, extends along the entire vertical length of rack
20 so as to engage each of the master tapes installed in the rack.
A capstan drive motor 36 provides continuous rotary drive for
capstan 34. A capstan shield 35 surrounds a portion of the capstan
periphery and prevents master tape 23 from wrapping around the
capstan or pinch roller 30. A connector strip 37 extends vertically
along the rear interior wall of rack 20 and includes a series of
four female connectors each adapted to receive a set of four
contact pins 33 from a respective master tape transport unit 21
mounted in the rack. The output signals from each master tape
transport unit are amplified and multiplexed in the manner
described hereinbelow.
Each of the remote vending machines includes a cassette changer 40
of the same general type as Norelco Model No. 2502. However, the
Norelco cassette change is modified as illustrated in FIGS. 4 and
4a for purposes of its utilization in the present invention.
Specifically the changes to the cassette changer are as follows:
(1) the playback head is removed and replaced by a four channel
cassette duplicator head 41; (2) a second motor M2 is provided
along with existing motor M1; (3) the drive belt 43 connected to
the cassette duplicator fly wheel 44 is moved from motor M1 to the
newly added motor M2; (4) a pause solenoid 45 is added; (5) the
eject button is removed; and (6) the eject relay, formerly actuated
by the eject button, is driven by logic circuitry illustrated in
detail in FIG. 10. Motor M2 thus drives capstan 46 which in turn
drives idler 47 to drive the take up reel 48 of the cassette
currently in the duplicator 49. Motor M1 is left to drive the
changer mechanism alone in the same manner as in the Norelco
cassette changer.
Operation of the vending machine is more clearly understood with
reference to FIGS. 5, 6, 7 and 8. More specifically, the vending
machine includes a frame having a base plate 54 below which is
mounted substantially all of the electronic circuits required for
operation of the vending machine. A generally circular turret frame
53 is supported above and spaced from base plate 54. Turret frame
53 has a plurality of holes 60 defined therethrough and forming a
circle about the center of the frame. A flat circular turret member
50 is rotatably supported by turret frame 53 for rotation about an
axis extending through the centers of both turret member 50 and
turret frame 53. A plurality of index holes 61 are defined through
turret member 50 and form a circle of size identical to the circle
formed by guide holes 60. The guide holes are equal in number to
the index holes and in the example illustrated fifteen of each set
of holes are provided.
A plurality of rectangular holes 52 are defined through turret
member 50 and form a circular path adjacent the periphery of the
turret member. The number of rectangular holes 52 is equal to the
number of index holes 61. The size of rectangular holes 52 is
slightly greater than the size of a tape cassette to be employed
with the vending machine of the present invention. Extending
upwardly from each rectangular hole 52 is a cassette storage
magazine 63 arranged to support a stack of tape cassettes. The
bottom cassette in each stack is supported on the upper surface of
turret frame 53 and slides along that surface as turret member 50
rotates. For this purpose, the spacing between turret member 50 and
turret frame 53 is less than the thickness of a cassette. A single
rectangular hole 62, also slightly larger than the size of a
cassette, is provided in turret frame 53 as best illustrated in
FIG. 7. When turret member 50 is rotated so that a stack of
casettes overlies hole 62 in turret frame 53, the lowermost
cassette in the stack is free to fall through the turret frame.
Located immediately below rectangular hole 62 is the duplicator
mechanism 49 which is arranged to receive cassettes from the turret
member.
A turret timing solenoid 55 is disposed beneath turret frame 53 and
includes an armature in the form of turret alignment rod 56.
Alignment rod 56 extends upwardly through turret frame 53 and
turret member 50 through a pair of aligned holes 60, 61. In this
manner rod 56 prevents relative rotation between the turret member
and the turret frame. When solenoid 55 is energized rod 56 is
axially retracted a distance sufficient to clear turret member 50
and thereby permit rotation of turret member 50 relative to frame
53. A flange 58 is secured to rod 56 at a location below frame 53
and acts to compress a spring 57 against the main frame of solenoid
55. Retraction of rod 56 upon energization of the solenoid is
accomplished against the bias of spring 57 which continually urges
the rod upwardly.
When flange 58 is retracted with rod 56 it actuates a microswitch
59 to supply energization current to motor M3. In addition flange
58 is arranged to actuate a motor lever 64 when solenoid 55 is
energized, the lever in turn actuating a tension rod 65 to pull
turret motor M3 toward turret 50 against the action of bias spring
66. This causes turret drive wheel 51 to peripherally engage the
turret member 50 to effect a rimdrive operation.
A channel 66 of rectangular cross section extends downwardly from a
rectangular hole 62 in turret frame 53 toward the cassette
duplicator mechanism 49 and thereby provides a loading guide
channel for the duplicator. A cassette sensing switch 67 is
arranged in guide channel 66 to detect the presence or absence of a
cassette in the storage magazine 63 aligned with duplicator 40.
When a storage magazine is aligned over opening 62 and guide
channel 66, the lowermost cassette is in position to be recorded
upon whereas the second lowermost cassette actuates cassette sense
switch 67. This removes a ground signal from solenoid 55,
maintaining the solenoid deenergized with turret alignment rod 56
engaging an appropriate one of index holes 61 in turret 50. When
the duplication of information on the cassette in the duplicator is
completed, a signal, generated in the manner described hereinbelow
in relation to FIG. 10, actuates the eject mechanism to cause the
full cassette to be ejected via port 68 and be taken by the
consumer. Ejection of the cassette is effected in the same manner
as in the Norelco Model 2502 Cassette Changer when the eject button
therein is actuated.
When the last cassette of the storage magazine 63 is in the
duplicator, the cassette sensing switch 67 is released to provide a
ground for turret timing solenoid 55. The latter is energized
thereby, causing alignment rod 56 to retract and unlock turret 50
relative to frame 53. In addition flange 58 actuates microswitch 59
and lever 64 to energize motor M3 and bring motor drive wheel 51
into engagement with turret 50. The turret is rotated at the rate
of approximately one-sixth revolution per minute. Approximately one
half inch before the next storage magazine 63 is aligned with hole
62 and guide channel 66, the lowermost cassette in that magazine
drops into channel 66 to actuate switch 67. This removes the ground
signal from solenoid 55 which nevertheless is maintained in a
condition with rod 56 retracted due to the fact that the rod is not
yet aligned with an index hole 61. The turret therefore continues
to rotate, as driven by motor M3, until index hole 61 is aligned
with rod 56 which thereupon is pushed by spring 57 through index
hole 61 to lock the turret in place.
In the manner described in the preceding paragraphs, turret member
50 is sequentially stepped one magazine position at a time as each
storage magazine 63 is emptied.
Audio signal transmission between a master tape playback head and a
vending machine is illustrated functionally in FIG. 9. The four
audio output signals from a typical playback head 29 at the master
tape center are applied to respective playback amplifiers 71. Each
of amplifiers 71 may comprise a Telex Model TDA-1, and is
preferably mounted integrally with the master tape transport cavity
rack 20 of FIG. 2. One set of amplifiers 71 is provided for each
master tape. Transmission from the master tape center is assumed to
be accomplished by means of American Telephone and Telegraph
picture phone trunks. To save the number of lines which must be
switched, the four amplified playback signals are multiplexed into
a single line for each master tape. Audio playback channel Number 1
is FM-modulated on a 276 KHz carrier at modulator 72. Channels
Number 2 and Number 3 are time division modulated with a 76 KHz
clock at modulator 73. Channel Number 4 is FM-modulated on a 368
KHz carrier at modulator 74. The three output signals from
modulators 72, 73 and 74 are resistively mixed at mixer 75 and
terminated at zero db level at American Telephone and Telegraph
picture phone PBF interface unit 76. The composite signal is
transmitted through an American Telephone & Telegraph picture
phone wide band trunk, as described in relation to FIG. 1, to the
picture phone wide band switching central office exchange 13. The
composite signal is then switched to the appropriate calling
picture phone trunks and transmitted to the vending machine
stations. Each station terminates the received signal in American
Telephone and Telegraph picture phone PBF interface unit 77 which
in turn delivers the signal to a decoder unit 78 which separates
the 276 KHz carrier, the 368 KHz carrier and the 76 KHz time
divided signals. The 276 KHz signal is demodulated by
FM-demodulator 82 to restore the channel Number 1 audio signal.
Likewise the 368 KHz signal is demodulated by FM-demodulator 84 to
restore the channel Number 4 signal. The channels Number 2 and
Number 3 signals are restored by time division demodulator 83. The
four demodulated audio signals are then delivered to signal
conditioning circuits 81 which by way of example may be Dolby Model
320 signal conditioners. The conditioned signals are then delivered
to record amplifiers 85 before being applied to the vending machine
duplicator head 41. Amplifiers 85 may be Telex Model TDA-1
amplifiers.
The demodulated channel Number 4 signal, in addition to providing
audio information from one of the master tape tracks, serves a
control function in that it also carriers an 80 Hz tone which is
recorded between selections on the master tape. This signal is
employed in FIG. 10, in the manner described below, as a start/stop
control signal.
Referring now to FIG. 10 of the accompanying drawings there is
illustrated a logic circuit employed in each vending machine to
control operation in response to deposit of currency or insertion
of a credit card into the vending machine by a consumer. For
purposes of illustration only, a positive logic convention is
employed in FIG. 10 whereby a relatively positive signal is
considered binary 1 and a relative negative signal is considered
binary 0. Initiation of operation at a vending machine occurs upon
deposit of currency in a currency receiver 91 or insertion of a
credit card in credit card terminal 92. Currency receiver 91 is a
conventional currency receiver of the type which gives a positive
voltage signal upon receipt of a preestablished amount of currency.
Credit card terminal 92 is also conventional and may for example be
the type manufactured by IBM as Model 2730-1. Assuming first the
receipt of the proper amount of currency at receiver 91, a binary 1
signal is applied to the preset terminal of flip-flop 93 to force a
binary 1 signal at the Q output terminal of that flip-flop.
Flip-flop 93, as well as all of the flip-flops described herein,
may be of the type manufactured by Texas Instruments Model SN7476.
The binary 1 Q signal from flip-flop 93 actuates relay driver 94,
which is simply a binary inverter, to energize the power relay 95.
Energization of power relay 95 closes the normally open contacts of
that relay to apply power to the electronics and control circuits
of the vending machine. Application of power to the vending machine
circuits energizes line relay 96 through a path provided by the
normally closed contacts of line interrupt relay 97. Energization
of line switch relay 96 connects the telephone dial lines for the
vending machine to a conventional touch tone dialing device 15. In
addition the dial tone from the telephone dial lines is connected
through contacts of relay 96 to a pair of dial tone band pass
filters 101 and 102, which filters include detection circuits which
provide binary 1 output signals whenever a signal at the standard
dial tone frequency is received. The output signals from filters
101 and 102 actuate AND gate 103 which in turn actuates relay
driver 104 to energize dial tone relay 105. When relay 105 is
energized its normally open contacts close to light the "dial for
selection" lamp 106 on the front panel of the vending machine. The
customer is now able to push an appropriate combination of push
buttons at touch tone device 15 to select whichever master tape he
wishes duplicated at the vending machine. A number code for each
master tape will normally be provided at each vending machine to
facilitate selection by the customer.
In addition to turning on the power and actuating the touch tone
device 15 insertion of the proper amount of currency in currency
receiver 91 generates an enable signal which is applied to an 80
Hertz band pass filter 111. The enable signal effectively provides
power to the band pass filter rendering it responsive to pass
signals within a band centered about 80 Hertz. The input signal to
the 80 Hertz filter is the start/stop control signal derived from
input channel Number 4 in FIG. 9. There is an 80 Hertz control tone
recorded between selections on each master tape. In order to
prevent initiation of master tape duplication in the middle of a
selection, the 80 Hertz tone, in the manner to be described below,
permits access to the master tape by the vending machine. Thus the
currency receiver 91, by virtue of its generation of the enable
signal, puts the vending machine in a mode whereby it is awaiting
access to the master tape selected at touch tone device 15.
Operation of the vending machine by credit card is substantially
the same as that described for currency, with the exception that
credit card operation requires credit checking and billing
operations at the computer 12 before the vending machine is
permitted access to the selected master tape. These credit checking
and billing operations are described below in reference to FIG. 11.
For purposes of describing the remainder of FIG. 10 it is assumed
that the proper amount of currency has been received by receiver 91
or that a valid credit card has been inserted in credit card
terminal 92. In either case, both currency receiver 91 and credit
card terminal 92 generate the start and enable signals mentioned
above.
If the vending machine is awaiting access to a selected master
tape, receipt of the 80 Hertz tone signal at filter 111 is detected
by detector 112 to provide a binary 1 signal to preset flip-flop
113. The resulting binary 1 Q output signal from flip-flop 113
actuates relay driver 114 to energize pause relay 115. This closes
the normally opened contacts of relay 115 to remove energization
voltage from pause solenoid 45, causing the latter to release
whereby capstan idler 47 is biased into engagement with capstan 46
(see FIG. 4a) and take up reel 48 to drive the latter and start the
duplicator tape in motion. The recorded information transmitted by
the selected master tape is thereby duplicated on the cassette
currently in duplicator 49.
The transition from binary 0 to binary 1 at flip-flop 113 actuates
a 5 second time delay 116 which, 5 seconds later, presets flip-flop
117, thereby priming AND gate 118. The 5 second delay before
setting flip-flop 117 is necessary to prevent the clear leader
portion of the cassette tape 120 to proceed past light source 122
and aligned photo cell 121 before AND gate 118 is primed. More
specifically, there is clear (transparent) leader at both ends of
the cassette tape 120. Light from lamp 122 passes through the clear
leader to actuate photo cell 121, thereby rendering the resistance
of the photo cell low. The actuated photo cell thereby provides a
binary 1 end of tape signal to AND gate 118 which is thereby
actuated when primed by flip-flop 117. If the clear leader at the
beginning of the cassette tape 120 were permitted to actuate AND
gate 118, the latter would clear flip-flop 113 to eventually
disengage capstan idler 47 from the take up reel in the duplicator
and thereby stop the tape before reproduction can begin. Once the
clear leader portion of tape 120 is transported past photo cell 121
the end of tape signal is maintained binary 0 and AND 118 is
inhibited.
Assuming the consumer wishes to duplicate an entire album recorded
on a single master tape, duplicating of the master tape contents
continues until the clear leader at the end of the cassette tape is
detected by the photocell 121. It is assumed of course that the
album on the master tape is of sufficient length to approximately
fill the cassette. When the end of tape clear leader is detected
AND gate 118 is actuated and provides a binary 1 signal to clear
flip-flops 113 and 117. The clear pulse for both of these
flip-flops is of relatively short duration since the clearing of
flip-flop 117 provides a binary 0 Q output signal therefrom which
disables AND gate 118.
Clearing of flip-flop 113 deactivates relay driver 114 to
de-energize pause relay 115. The normally open contacts of relay
115 serve to complete the energization path for pause solenoid 45
which retracts its armature to remove the capstan idler 47 from
contact with the take up reel in duplicator 49. Tape transport in
the duplicator is thereby stopped. The end of tape pulse provided
by AND gate 118 presets flip-flop 123 which responds by providing a
binary 1 Q output signal. This Q output signal is applied to a 2
second delay circuit 124 which, 2 seconds later, clears flip-flop
123 so that the binary 1 state of the Q output signal is permitted
to subsist for only 2 seconds. During that 2 second interval the
binary 1 Q output signal actuates relay driver 125 to energize the
eject relay 126 which operates latch 127 at the duplicator to eject
the cassette through ejection port 68.
The end of tape output pulse from AND gate 118 also clears
flip-flop 93 to de-energize power relay 95. Power is thereby
removed from the control circuits in the vending machine until
currency or a credit card is once again received. Removal of power
de-energizes the line switch relay 96 to break contact between
touch tone device 15 and the telephone dial line.
Assume now that the consumer, once having inserted the proper
credit card or proper amount of currency, wishes to compose his own
album from specially prepared solo selections on various ones of
the master tapes. On these master tapes each selection is followed
by a 140 Hertz control tone which, after a suitable interval, is in
turn followed by the 80 Hertz control tone. If duplication has been
initiated in the manner described above, before the end of tape
signal terminates duplication, a 140 Hertz control tone is received
after the first selection has been duplicated. This tone is
received on the start/stop control signal line from FIG. 9 and is
passed by the 140 Hertz band pass filter 131 to AND gate 139. The
latter is controlled by the Q output signal of flip-flop 113 which
will normally be binary 0 at this time. AND gate 139, therefore, is
not enabled by a 140 Hz tone until an 80 Hz tone has been received.
The first 140 Hz tone following an 80 Hz tone is then passed by
gate 139. The passed tone is detected at detector 132 and applies a
binary 1 signal to one input terminal of AND gate 133. In addition,
the output signal from detector 132 is applied to the J and K input
terminals of flip-flop 134, and to the CLK input terminals of each
of flip-flops 134, 135, 136, and 137. These four flip-flops are
connected as a binary counter which is preset by each end of tape
signal from AND gate 118 to a count of twelve. Each detected 140
Hertz tone at detector 132 adds a count to the counter. Since a
count of twelve is preset into the counter, the Q output signal
from the most significant bit stage 137 is binary 1 when the first
140 Hertz tone is detected. Consequently both input signals to AND
gate 133 are binary 1 and the gate is actuated to clear flip-flop
113. Clearing of flip-flop 113, as described above, retracts
capstan idler 47 from the take up reel in the duplicator to inhibit
transport of the cassette tape. In addition, clearing of flip-flop
113 provides a binary 1 Q to one shot multivibrator 141 which
provides a binary one pulse of 5 seconds duration to actuate relay
driver 142 for that period. Line interrupt relay 97 is therefore
momentarily energized to in turn de-energize the line switch relay
96 and remove the telephone dial lines from the vending machine
circuits for the five second period of one shot multivibrator 141.
After the five seconds the output signal from one shot
multivibrator 141 goes to binary 0, inhibiting line interrupt line
relay 97 to thereby re-energize line switch relay 96. The telephone
dial lines are once again connected to the circuit, the dial tone
returns, and the dial for selection lamp 106 is lit in the manner
described above. The consumer may then choose his next selection by
pressing the proper combination of buttons at the touch tone device
15. When the master tape containing the selection is connected to
the vending machine by the switching circuitry, the circuitry
awaits the next 80 Hertz tone from that tape. If that master tape
is in the middle of a selection when the vending machine is
connected, the 140 Hz stop tone at the end of the selection is
precluded from having any effect by AND gate 139. Specifically,
gate 139 is inhibited by flip-flop 113 until the next 80 Hz start
tone is received. When the 80 Hz tone is received flip-flop 113 is
preset once again to prime AND gate 139 for the next 140 Hz control
tone. In addition, flip-flop 113 initiates cassette tape transport
and primes the end-of-tape AND gate 118.
At the end of the current selection the 140 Hertz tone appears once
again to suspend cassette tape transport in the manner described
above. In addition the 140 Hertz tone adds a count to the binary
counter comprising flip-flops 134 through 137. Operation proceeds
as described to permit the consumer to make a series of selections.
At the end of the fourth selection the 140 Hertz tone recycles the
counter comprising flip-flops 134 through 137 to all zero states.
Thus at the end of the fifth selection AND gate 133 is disabled by
the binary Q signal from flip-flop 137. The 140 Hertz tone at the
end of the fifth selection is therefore unable to clear flip-flop
113. Instead, the cassette tape is permitted to run to the end at
which point photo cell 121 detects the clear leader and disconnects
the vending machine from the master tape center in the manner
described above.
Considering the operation of the system in response to insertion of
a credit card in terminal 92, the start signal presets flip-flop 93
to energize power relay 95 and apply power to the system. Line
switch relay 96 is energized by the applied power to in turn apply
the telephone dial lines to touch tone device 15. Telephone line
coupling to the computer is illustrated in FIG. 11 and is effected
by a data coupler circuit 151 and terminal control unit 152, one
each for each computer telephone line. The data coupler unit 151
may be a conventional Western Electric CBS Model and the terminal
control unit 152 may for example be the IBM Model 2968-9 unit. A
common audio response unit 153 for all of the telephone lines at
the computer responds to a call up from a vending machine by
sending an interrogate pulse over the telephone lines to the credit
card terminal 92 at the vending machine. The credit card terminal
responds by reading the magnetic strip on the inserted credit card
and transmits the numbers in digital form back over the telephone
line to audio response unit 153. The computer 12 checks the
received credit card number and verifies the status of the card. If
the credit card is verified as a valid card, audio response unit
153 transmits an indication to the credit card terminal via the
telephone dial lines. The credit card terminal responds by
generating the enable signal to actuate the 80 Hertz band pass
filter 111 and permit duplication to proceed upon receipt by the
vending machine of the next 80 Hertz control tone. In addition the
computer adds the cost of the album or selections being recorded to
the appropriate file in the computer storage disks 154 and 155. The
accumulated billings for each customer can be accessed and billed
at a specified period of each month. In addition the computer
stores the number of the album or selections duplicated for
internal records for payment of royalties to recording companies.
Another important feature of the system is its capability of
providing instantaneous popularity ratings for the various records.
These ratings are easily computed by computer 12.
Computer 12 is preferably an IBM 360 computer, Model 25. It
utilizes a key board printer 156 which is preferably IBM Model No.
1052, a card reader 157, which for example may be IBM Model 1402,
and a line printer 158, which for example may be IBM Model No.
1403, are employed in conjunction with computer 12. Storage disks
154 and 155 may for example be IBM Model No. 2311.
In the foregoing description a four track system is assumed whereby
each master tape contains four recorded tracks and each vending
machine cassette contains four recorded tracks. The recorded format
may be two channel stereo or four channel quadraphonic as desired.
Those master tapes containing a complete album are provided with 80
Hertz tone signals between each selection as described above. Those
master tapes from which individual selections may be chosen to
compose a unique album have only the one selection stored
repetitively on that tape. For the album tapes the two channel
stereo programs are specially arranged so that the two tracks on
the one side of the album have a selection of approximately the
same timed length as the selection recorded on the adjacent two
tracks of the other album side. This feature permits access to all
four tracks simultaneously at a master tape location between
selections. It is to be noted that all four tracks are transmitted
to the vending station simultaneously to minimize the duplicating
time. Since the cassette which receives the master tape information
must be turned over when playing back different sides of the album,
the simultaneous four track duplication requires that two of the
tracks be duplicated while running backwards. In duplicating there
is no quality deterioration if tracks are running backwards.
Where the four channel quadraphonic format is used, it is obvious
that the relative lengths of adjacent track pairs takes care of
itself automatically since the same selection is recorded on all
four tracks.
For the two channel stereo format the standard C-30 cassette can be
employed at the vending machines. In the four channel quadraphonic
system, playing time of the finished tape is half that for the two
channel stereo format; in such case the standard C-60 cassette may
be employed.
The standard master tape uses the Dolby A-Parameter Noise Reduction
System and is recorded at 33/4 ips real time and played on the
master transport at 15 ips. The cassette duplicator slave recorder
in the vending machine converts the information to the B-Parameter
Dolby Noise Reduction System which is compatible with consumer tape
players and records at 71/2 ips. The vending process time would be
33/4 minutes on a C-30 cassette. Using the new cromium dioxide tape
and the Dolby A-Parameter Noise Reduction System, the master tape
is recorded at 17/8 ips real time speed and played on the master
transport at 15 ips. The cassette duplicator slave recorder in the
vending machine would run at 15 ips. The vending process time for a
C-30 cassette would be 17/8 minutes. The masters may also be
recorded using the B-Parameter Dolby Noise Reduction System in
which case conversion processing would not be required in the
vendor duplicator, but the quality of reproduction would not be
quite as high as in the A-Parameter master processed to B-Parameter
finished product cassette. Crystal ferrite record, reproduce heads
are used in this system to compensate for the increased wear factor
using the higher performance, more abrasive cromium dioxide tape
running at higher speeds. Standard Telex 235 Series duplicator
electronics designs may be used in both systems. Special line
matching transformers are metered, adjustable output voltage
preamps are used to meet AT&T transmission specifications to
interface with AT&T transmission lines. The speed can be
increased to 60 ips with present technology applied by any
qualified audio design engineer using CATV transmission cable,
privately installed wideband coaxial cable or AT&T wideband
facilities if new technology in transmission makes it economically
feasible. Duplicator process time would be less than 30 seconds on
a C-30 cassette.
It will be appreciated, of course, that the multiplexing
frequencies specified in relation to FIG. 9 are intended to be by
way of example only and not limiting on the scope of the invention.
The specified frequencies, in fact have been correlated with the
illustrative duplicating speed mentioned in the preceding paragraph
to minimize distortion. The utilization of different duplicating
speeds will usually require a suitable change in the multiplexing
frequencies.
In addition, the use of the AT&T picture phone system, as that
system presently exists, requires that the transmitted signals be
in analog form due to the relatively limited system bandwidth. The
projected color picture phone system has a wider bandwidth than the
present black-and-white system; consequently, the projected picture
phone system will be able to handle digital signal transmission
whereby digital to analog and analog to digital converter would be
incorporated in a conventional manner in the system of the present
invention.
The program format, tape size, and cartridge style may obviously be
varied as desired. For example, eight channel eight-track cartridge
duplicating is possible. Such a system would in effect require the
doubling of the electronics in the system described above for four
channel duplicating. Whereas the four channel cassette masters
employ half inch tape, the eight track cartridge masters would
employ 1 inch tape. In fact, master tape transports can be expanded
to any tape width desired or any number of channels desired. The
important factor is not the number of channels or the program
format but rather the concept of remotely vending cartridge-type
storage components on which centrally stored information is
duplicated on command. Naturally, for the eight track vending
machine the operation would be substantially the same as for the
four track machine described above except that the four track
cassette duplicator would be replaced by an eight track cartridge
duplicator, the turret storage magazines would be enlarged to
accommodate the larger eight track cartridges, the multiplexing
equipment would be expanded to include eight multiplexed channels,
and the vending machine audio circuits would be effectively doubled
in number.
In addition to variations in the format and configuration of the
storage media, signal transmission between the vending machine and
the central station can be effected in a number of alternative
ways. For example, reference being made to FIG. 12, alternative
microwave transmission may be effected by using the Jerrold SRL-1
microwave system or equivalent. This system may be employed in
point to point transmission when transmitting four channels on each
microwave link for as many as 8 miles without the necessity for
relay stations. The four signal channels delivered from each master
tape at tape center 11 are applied to respective Jerrold Model
SRL-1 exciters 161, 162, 163 and 164. The resulting four output
signals are applied to the Jerrold Model SRL-1 transmitter 160 and
transmitted by a microwave link 165. The transmitted signal is
received by Jerrold Model SRL-3 receiver converter unit 166 where
it is separated into four channels which are delivered to four
standard VHF tuners 167, 168, 169 and 170. The tuner output signals
are then applied to the vending machine in the same manner
described above for the picture phone transmission system.
Alternatively, and reference is made to FIG. 13, CATV transmission
may be employed for the vending machine system of the present
invention. The present system may use existing CATV cable
facilities without interferring with existing TV programs by
connecting each master tape channel to a respective FM modulator
such as the Jerrold AFM-2 FM modulator, designated by the numerals
171, 172, 173 and 174 in FIG. 13. The output signals from the FM
modulators are combined and transmitted via CATV cable 175 to the
appropriate vending machine location where the signal is applied to
four FM tuners 176, 177, 178 and 179. The FM tuners may for example
be McIntosh Model MR77 tuners utilized in their monaural mode
(i.e., -- multiplex switched off) and selected because of their
excellent phase linearity at high frequencies. Standard FM
broadcast frequencies of 88 to 108 MHz are employed for
transmission in the approach of FIG. 13. The channels are placed
200 KHz apart thereby permitting 50 channels for each CATV
system.
The central master tape center may be expanded to include any
number of master tapes containing any mix of programs desired or
necessitated by market conditions. The cartridges or video
cassettes may be vended by employing the same concepts described
herein. Under such circumstances the master tape transport head
would be replaced with a moving rotary helical-scan head for
increased frequency response, the capstan speed would be changed to
meet video tape speed format and the electronics would be changed
to video type electronic systems. The vending machine duplicator
transports would be changed in the same manner.
Of course, the most important concept of the present invention is
the remote vending of centrally stored information, with payment
being made at the vending location. For purposes of the present
invention, the term "payment" is intended to main deposit of
currency and/or use of an appropriate credit identification
element, such as a credit card. In addition, it is contemplated
that advertising messages may be included on vended cassette or
cartridge, thereby providing another revenue-raising aspect of the
system. Such advertising messages would be recorded on the master
tapes along with the commercial recordings or other
information.
While I have described and illustrated specific embodiments of my
invention, it will be clear that variations of the details of
construction which are specifically illustrated and described may
be resorted to without departing from the true spirit and scope of
the invention as defined in the appended claims.
* * * * *