CA2185689A1 - Machine-readable indicia certificate dispensing device - Google Patents

Abstract

A gift certificate dispensing device having an internal machine-readable indicia reader is disclosed for printing and dispensing a certificate either based upon payment by a user or upon the insertion of a prepaid form into a slot in communication with the scanner. A
plurality of gift certificate dispensing devices can be connected in a network under the control of a central processing unit. The central processing unit identifies and keeps track of all the certificates within the network by way of indicia disposed on the certificates, which are scanned by each device as they are dispensed thereform.

Description

~vo ss/2s320 PCTmS9~l033~2 2 ~ 85689 MAC~ T~FAnAr~r T~ TNnIrTA rT~ T~TIFI~AT;E:
D~ NX ~ N~;i DEVIC~
FTT~T,n OF T~ Tl~l~l\T ~mION
The pre6ent invention relates to an apparatus and method for dispensing certificates, and more particularly, to an apparatus and method which includes reading m.achine-readable indicia, like barcodes.
BACKGROUND OF TT-TT' I~lEN~rIC~
Certificate dispensing devices are becoming increasingly more popular as a means for replacing human operators. These devices are being implemented in a variety of applications, such as fo~ vending airline tickets, conducting financial transactions (i.e., Automatic Teller Mi~-h; n~P), and more recently dispensing gif t certif icates . A conventional gif t certif icate dispenser is disclosed in U. S . Patent No . 5, 243 ,174 and is incorporated herein by ref erence .
Certificate dispensing devices have several advantages over their human counterparts. Fir~t, since they require a- minimal amount of direct human assistance, they are considerably cheaper to run.
Second, they can be located outside and inside, such as in all-night ccnvenience stores, grocery stores and gas stations, 80 as to provide users with unlimited access 24 hours a day, seven days a week. Third, these devices are mobile and can be placed in multiple locations.
Such mobility allows a company to expand its geographic market for the goods and/or services sold by the device.
Despite these advantages, theft and v;ln~q~l; pm of these devices and their contents has been a continuing problem and as a result, have increased the costs associated with the operation of such devices. In an attempt to prevent theft and v;ln~ l; pm~ safety features have been incorporated into existing devices to detect unauthorized access to the interior of the housing o:E the device. One such feature is the use of access codes which are only distributed to authorized 4 0 personnel .
_ ~ o gs/2s320 PCT/US9510337' ' !
2 2 ~ 856~9 The certificates dispen6ed by the dispenser,~
however, are ~ypically stored within the interior of the housing of the device. As a result, someone must be allowed access to the lnteriDr~ of the housing in order 5 to load and reload certificates into the device.
Whenever the housing is open there is a potential for theft. For example, unauthorized personnel may have improperly obtained the acce6s code. It is also possible that authori~ed personnel are the themselves 10 stealing the certificates. As the number and geographic scope of these devices increases, the potential for such thef t also increases .
In the gift certificate vending industry, additional problems are present. Gift certificates have 15 emerged due to increasing time constraints in the lives of busy people. They have also become popular among:
companies as a rluick and easy way to give gifts to their employees, such as for Christmas, or for Secretary~s Day. Currently, employees receive a pre-ordered ~orm 2 0 f rom their employer and select a purveyor of goods/services from a list provided. The employee maile this filled-in form to the gift cert;~;r~;t~o vendor, who then issues a complete gif t certif icate payable to the employee in the appropriate gift amount and from the 25 purveyor selected by the employee.
The curr nt procedure, however, essentially eliminates the very benefits of gift certificates, namely convenience. In addition, since the form must be returned to the gif t certif icate vendor bef ore the 30 employee can redeem it, processing costs are increase;d.
This procedure also increases the risk that the form may get lost, damaged, or misplaced since it requires the user to temporarily lose control of it. Furthermore, since the employee never uses the gift certificate 35 dispenser, the opportunity for her/him to become aware _ of and familiar with the dispenser is lost.
Accordingly, there is a need for a certii~icate ~o ss/2s320 PCT/U59~/03372 ~ 2 1 85689 , ~, 3 dispenser that can identify, track and validate the issuance of certificates therefrom in order to prevent theft. There is also a need for a certificate dispenser that dispenses a gift certificate in response to the 5 insertion of a pre-ordered form.
SIJMMP~RY QF TTTR INS7ENTION
The present invention is broadly directed to a dispensing arrangement requiring a first form negotiable for goods or services having first machine-readable 10 indicla disposed thereon and a mechanism for dispensing the f irst f orm . The arrangement also includes a second form ~aving second machine-readable indicia thereon and a mechanism for accepting the second form in at least partial payment for the first form. The dispensing 15 mechanism and the accepting Tr~ h~ni r- have a common machine-readable scanner for reading the first and second indicia. The arrangement further includes a mechanism for processing information from the first machine-readable indicia to identify a security problem 20 and a mechanism for validating the second indicia before allowing the accepting --^h;ln; Pm to accept the second form as at least partial payment for the first form.
More particularly, the aLLdlly. t of the present illvention comprises a housing having a wall with 2~ a slot therei~. A certificate negotiabie for goods or services has first-machine readable indicia disposed thereon. The aLLa~ includes a mechanism for receiving payment f or the certif icate . The payment receiving ---h~n; r~ includes a form having a second 30 machine-readable indicia disposed thereon and a machine-readable indicia scanner. The payment receiving mechanism also includes a ~ niP-n for validating the aecond machine-readable indicia. The aLLally~ t further i n~ P. a mechanism within the housing for 35 dispensing the certiiicat~, and a mechanism for guiding the certificate and the form ~o that the first indicia is scanned by the scanner when the certificate passes ~VO 95125320 PCT/IIS95103371 from the dispensing mechanism and so that the second indicla - ls scanned by the scanner when a portion of the form is inserted through the slot. The arrangement stlll further includes a mechanism for controlling the 5 payment receiving mechanism ana the dispensing mechanism. The controlling mechanism includes a first mechanism for processing and validating information from the payment receiving mechanism, and for regulating the dispensing ~ n1 ~m so that the certificate is 10 dispensed by the dispensing mechanism when the scanner reads the second machine-readable indicia and accepts the form as the payment on validation of~ the second machine-readable indicia. The controlling mechanism also then includes a second mechanism for processing 15 information from the first machine-readable indicia to identify a security problem.
The present invention also provides for a method for dispensing a certificate having a first indicia disposed thereon from a certificate dispensing 20 apparatus in response to receiYing a payment from a user, or upon insertion of a form having second indicia disposed thereon into a slot provided on the apparatus.
The dispenser machine has a sensor, a guide, a printer, a dispenser, a scanner, and a central processing unit.
25 The method involves activating the printer upon verification by the central processing unit of the payment received, activating the scanner in response to the printer being activated or when the sensor senses the presence of the certif icate being dispensed and the 30 form being inserted in the slot dispensing the certificate after it has been printed by the printer, scanning one of the first and second indicia, as the printed certificate is dispersed by the dispersing nears, verifying through the centra-l processing unit ~
35 that the second indicia scanned by the scanner is valid to enable issuance of the certif icate, and determining through the control processlng unit that a security ~vo ssl2s32Q PCT/US951(13312 investigation need not be made when the first indicia is in proper sequence.
BRIEF T)T1'~CRIPTION OF TT~ DI~Z~WINGS
FIGURE 1 is a perspective view of a gift 5 certificate dispenser in accordance-with the present invention;
FIGURE 2 is an electrical block diagram representative of the gif t certif icate dispenser according to the present invention;
FIGTIRE 3A is a cross-sectional side view illustrative of the certif icate dispenser of claim 1, with parts removed for clarity;
FIGTJRE 3B is a transverse cross-section of the area surrounding the input slot of FIGTJRE 3A with a form inserted therein;
FIGTJRE 4 is a block diagram representation of a network of certificate dispensers controlled by a main computer and one or more credit card authorization computers according to the present invention;
FIGTJRE 5 i8 a flow chart representation of t'~.e screen images that are displayed when blank certificate6 need to be loaded into the dispenser;
FIGURE 6 is a flow chart program representing the tracking system according to the present invention;
FIGTJRE 7 is a representation of a pre-paid form;
FIGURE 8 is a flow chart representation of the screen images that are di3played when a user inserts a pre-paid form through the input slot of the dispenser;

3 0 and FIGURE 9 is a f low chart program representing the verification system for pre-paid forms.
nT~'T~TT,~n I)ESCRIPTION OF T~T~ ] E~ o~IM~NTs A certif icate dispensing device 10 is shown in FIGURE 1. The dispensing device lD shown in FIGTJRE 1 is a gift certificate dispenser and the invention will be hereinaf ter described based on such a device . However, -~o 9sl2s320 PCT/U59SI03372 ' ;' ` ' ' 6 2 1 85689 it can be appreciated that the invention can be applied to othe~ types of dispensing devices, such as those used to vend airline tickets, vouchers, and the like. In general, device 10 can vend any certificate which is negotiable for goods and servlces.
Certificate dispensi~g device ~lo, as shown in FIGURE 1, is a stand-alone housing having a rectangular shape with panel-like walls 13, a base 15 and a top 17.
Alternatively, dispensing device lo may be built into a lo wall or like structure. Dispe~sing device 10 houses a monitor 12 with a touch screen 14, a magnetic card reader 16, a cash acceptor 21, a pre-paid form input slot 11, a certificate dispenser slot 18, an envelope dispenser slot Inot shown), a pocket 4 for storing literature about device 10, a keypad 3, and identifying plas~ues 22 on one or more sides of the device. Device 12 may also be provided with a plurality of areas 6 upbn which further information about device lO may be displayed, such as instructions on how to use device 10 a list of the names of the available ~uLv~y~JL.~. It is understood that only one form of payment is needed, i.e., card reader 16, cash acceptor 21, or pre-paid form receiver indicated at slot 11. Also, the envelope dispenser is optional.
Monitor 12 is the primary means for providing communication between the user and dispensing device 10.
The user is able to enter information by touching predetermined areae of touch screen 14. The user may also enter information via keypad 3. Messages ge erated 3 0 by diæpen3ing device 10, such as instructions or advertising, may likewise be displayed to the user via monitor 12. Card reader l~ ib used to accept a payment from the user via credit cara or other card having magnetic-coded data thereon representing an account number or other deeignation which can be used for satisfying a demand ~or payment. Input slot 11 is aligned with a scanner 19 r-mtAinPrl within the housing Wo ~5l2s320 PC~n~S~510337~
, ~ ~ ; 2 1 85689 (see FI~URES 3A and 3s) which reads machine-readable indicia (barcodes7 MICR, etc. ) disposed on papers inserted lnto input slot 11 In a representative transaction, a user will 5 approach monitor 12, enter gift certificate choices via touch screen 1~, such as the store and gift amount, swipe a credit card through card reader 16 or input cash to cash acceptor 21, and await printing and dispensing of the certificate and envelope from dispenser slot 18 lo and envelope dispenser slot 20, respectively.
Dispensing device 10, however, provides for other types of transactions. One such transaction is the redemption of a pre-ordered gift certificate having barcoded indicia disposed thereon for identifying the 15 certificate. With this type of transaction, a user having a form representing a pre-ordered gift form will approach dispensing device 10, insert the portion of the form having the barcoded indicia disposed thereon into input slot 11, select a store and input his or her name 20 from touch screen 1~, and then await printing and dispensing of a complete certificate and envelope from certificate dispenser slot 18 and envelope dispenser slot 20, respectively.
Another type of transaction provided by 25 dispensing device lo is a sweepstake where users having sweepstake entry coupons with barcoded indicia disposed thereon can obtain prizes from dispensing device 10.
With this type of transaction, a sweepstake entrant will approach dispensing device 10, insert the portion of the 30 coupon having barcoded indicia disposed thereon into input slot 11, and then await instructions and/or information displayed on monitor 12 indicating whether or not they have won, and if 80, how to claim their prize, perhaps a gift certificate from dispensing device 35 10. While they are waiting, monitor 12 preferably diæplays information about the gift certificate di spenser .
.

wo ~ s/2s320 PCI~S95103372 8 ~ 6 8 ~ - ~
The various electronlcs which provide the advantageous features of dispensing device 10 are secured behind an access door ~not shown) within the housing. FIGURE 2 shows an electrical block diagram of 5 the gift certificate dispensing device 10 of ~IGURE 1.
Computer 24 is connected to and controls monitor 12, touch screen 14, card reader 16, sensor 9, scanner 19, cash acceptor 21, a laser printer 26, envelope~dispenser 32, a nonvolatile memory device 28, and a modem 42.
10 Modem 42 is connected through an internal telephone ~ack 44 to a public telecommunications channel 46. Computer 24 is also connected to a keyboard port 48 to ailow connection of a keyboard (not shown) during servicing.
Dispensing device 10 also preferably includes a 15 plurality of safety devices connected to computer 24 ~not shown). A dispensing device having these safety devices is disclosed in U.S. Patent No. 5,243,174.
In the preferred: ' ~; t, computer 24 is an IBM PC or compatible computer with at least 2 MBytes oi 20 dynamic memory. Monitor 12 is a standard VGA monitor.
Touch screen 14 is an Elographics' AccuTouch 2742-13-Kl touch screen with touch screen controller. Card reader 16 is a I~GTEK 21055002 ~lotted magnetic card reader ~
connected to computer 24 through an RS232 line. Sensor 25 9 is an Optek Technology, Inc. Reflective Object Sensor Model OP B704. Scanner 19 is a Symbol Technologies LS-2920 connected to computer 24 through an RS232-line.
Laser printer 26 is a Hewlett~Packard Series III laser printer. Nonvolatile memory device 28 is a 40 MByte 30 fixed disk drive. Modem 42 is a 9600 saud Motorola Codex Model 3500 modem. Telephone jack 44 is a standard j ack compatible with a standard domestic telephone cable. Cash acceptor 21 is a CBV Model IVO with a bill stacker. All the6e items are=commercially available as 35 i8 known to those skilled in the art.
Card reader 16 is a typical magnetic sard reader used to read coded data stored in a magnetic wo 9sl25320 PCTNS95/03372 ~ ~ 2 ~ 85689 strip on a credit card in order -to ~aebit a credit card account for payment for gift certificates dispensed.
Card rea-ders such as card reader 16 contain circuitry which reads the encoded data and sends that data to 5 computer 24 for use in v~l ;rl~ting the card.
Alternatively, a card reader with an integral modem (not shown) may be used to automatically dial a credit card service - for verification of a credit card passed therethrough. It should be noted that although the 10 preferr~ embodiment is geared toward the use of a credit card, the teaching of the present invention could also easily be applied to a debit card system.
Scanner 19 as shown in FIG~RE 2 is a typical machine-readable indicia scanner used to scan and read 15 barcoded indicia, With dispensing device 10, scanner 19 is used to scan and read indicia disposed on forms representing pre-ordered gift certificates or indicia disposed on sweepstakes entry forms when inserted into input slot 11. gcanner 19 is also used to scan and read 20 indicia of printed certificates as they are dispensed from dispensing device 10. These indicia can either be pre-printed on the certificates to be stored within device 10, or they can be preprinted on the certificates by printer 2~. Scanners such as scanner 19 contain 25 circuitry which reads the indicia and sends that data to computer 24 for v~l ;flAt;n~ the pre-ordere~ gift certificate, coupon, and printed certificate.
Preferably, scanner 19 can read a variety of computer-readable indicia, ;n~ ;ng magnetic-type indicia. One 30 example of such a scanner is manufactured by Verifone.
By impl t;n~ such a scanner, input slot 11 is available to accept pre-paid forms, As a result, card reader 16 can be eliminated, thereby simplifying, if de~ired, the design of dispensing device 10. In 35 addition, by increasing the number of types of indicia accepted by dispensing device lo, its utility and functionality can be greatly increased.

~'O !~;125320 - 2 ~ 8 ~
~ . . r ~
10 ~lg5~gq As can best be seen in FIG~RE 3A, scanner 19 is placed between laser printer 26 and the front wail 25 of the hsusing. A guide 27 extends between printer~ 26 and certificate dispenser glot 18 in front wall 25. The 5 printed certificate is fed onto guide 27 and slides downwardly along it through certificate dispenser slot 18 and against stop 31. The user can grasp the certificate in the region near stop 31 and remove it.
As can be further- seen in FIGURE 3B, an opening 33 is 10 provided in guide 27 such that scanner 19 projects a laser beam appropriately through opening 33 to ~ .
illuminate a machine-readable indica disposed either on a certificate- being dispensed ~rom printer 26 or: on a pre-paid form or sweepstakes entry form being inserted 15 thrs~gh slot 11. Thus, the same scanner 19 is used for both the function of; 1~ ~lmi n~ting and reading a machine-readable indicia disposed on a~dispensed certiflcate from printer 26 or ~ min~ting and reading a machine-readable indicia disposed on a=orm inserted through 20 slot 11. In an alternate embodiment, guide 27 may have an arcuate shape. Furthermore, ln an alternate embodiment, slots 11 and 18 may form a common slot.
In a preferred f mhorlir ' ~ a sensor 9 is installed within the housing of dispensing device 10= to 25 sense the insertion of the form into input slot 11.
Sensor 9 works in conjunction with scanner 19 by activating scanner 19 upon sens~ing the presence of the form into input slot 11. In this manner, scanner 19 can remain off until needed, thereby increasing the overall 30 life of scanner 19. Sensor 9 is positioned within the housing of dispensing device lo aboYe the portion of input slot 11 which extends into the housing. An appropriate sensor g can shine a beam 37 of infrared light down towards an opening 35 in input slot 11. When 35 a form is inserted into input s1ot 11, opening 35 is blocked, thereby permitting the infrared light to reflect off the form back toward sensor 9, which then .

WO 95/2532Q r~l").,. ~ 72 activates scanner 19 Input slot 11 may also include barcode indicla disposed on the underside of the top surface 41 of input slot 11 such that it is aligned with the path of beam 33 projecting from scanner 19. Based 5 on whether scanner 19 is able to read the barcode indicia disposed on input slot 11, it can be determined if input slot 11 is blocked, as well as if scanner 19 is operating properly.
In the case where the certificates are pre-10 printed with barcoded indicia they must be oriented sothat the barcoded indicia faces down when the certif icates are dispensed . Likewise, the indicia on the pre-ordered forms and sweepstakes entry forms must face down when inserted into input slot 11. Preferably, 15 the user is instructed on the proper orl~nt~t;on, either through a plaque (not shown) above input slot 11 or via a message displayed on monitor 12. It is to be understood, however, that the positions of scanner 19 and sensor 9 may be interchanged without affecting the 20 operation thereof.
Gift certificate dispensing device 10 can operate independently or within a network. FIG~RE 4 is a block diagram representative of a network of gif t certificate dispensing devices 10 coordinated by a main 25 computer 60. In FIGURE 4, gift certificate dispensing devices 10.1 through 10.N are connected through public tel,o~ i cations channel 46 to main computer 60 . Main computer 60 is cnnn~ntp~l to a printer 64 for printing transactions either as they occur or as a batch at 30 predetermined time intervals. Main computer 60 is also connected through public t~ ; cations channel 46 to one or more credit card authorization computers 62 through channel 46 to validate credit card transactions made through these devices . In the pref erred 35 embodiment, main computer 60 is a PC compatible computer .
Networked operation of the dispensing devices ~ o ~s/2s320 PCTIUS~5/03372 ' ` 12 ;~ ~ 856B~
is preferred since it eases the requirement for~local eecurity . In the preierred embodiment, a number of gif t certificate dispensing devices are connected by telephone to a main computer. ~ The main computer can 5 poll aispensing devices to determine if a dispensing device has been disconnected or has lost power, can execute diagnostic tests remotely to expedite detection of hardware faiiure, and can monitor devices for unauthorized access or vandalism.
lo The gift certificate dispensing device of the present ~ nvention, however, provides additional measures for ensuring its secure operation. One such measure- is an identification and tracking~=sy6tem for keeping track of certif icates as they are distrlbuted to and dispensed by dispensing device6 on the network. It will be assumed for the purposes of the following discusslons that all blank certificates distributed to dispensing devices 10.1 through lO.N are preprinted with machine-readable indicia ln the form of a barcode individually identifying each certificate. For aesthetic purposes, the indicia iB preferably disposed on the back side of each certificate . No two certif icates use the same barcoded indicla. Typically, these certificates are prepared and sold in a pack with the barcoded indicia increasing in sequential order from the first certificate to the last certificate in the pack.
Preferably, a cover sheet is included with the pack which has the barcoded indicia of the f irst and last certificate disposed thereon.
Before the blank certificates are distributed to each location, the barcoded indicia of each certificate is entered into and stored within a data file in computer 60. At each location, before the packs of certificates are loaded into laser printer 2~ by authorized personnel, the harcoded indicia of each of the certif icates in the pack must be entered into the device .

~'O 95/25320 PCT/lJS951a337i!
13 2 1 8 5 6 8 q FIGURE~ 5 illustrates the series of representations o~ screen images that are displayed on monitor 12 once authorized personnel gain access to the interior of the housing of the device. At 100, a prompt 5 is displayed on monitor 12 instructing the user to select from a menu of service and repair options. These options include an "Add Certiicate Paper" option. Upon selecting the "Add Certificate Paper" option, a prompt is displayed at 105 instructing the user either to (1) 10 key in the barcoded indicia of the first certificate in the pack, (2) insert the barcoded indicia end of the first certiiicate into input slot 11, or (3) insert the barcoded indicia of the f irst certif icate on the cover sheet into input slot 11. If the iirst option is 15 selected, the information keyed in is transmitted directly to computer 24. If the second or third options are selected, scanner 19 scans and readb the indicia and then transmits the information to computer 24. Upon entering the barcoded indicia of the first certificate, 20 a prompt ls displayed at liO instructing the user to either (1) key in the barcoded indicia of the last certificate in the pack, ~2) insert the barcoded indicia end of the last ~ertificate into input slot 11, or ~3) insert the barcoded indicia of the last certificate on 25 the cover sheet into input slot 11. Again, if the first option is selected, the information is directly transmitted to computer 24. If the second or third option i8 chosen, scanner lg scans and reads the indicia and then transmits the information to computer 24. At 30 115, a prompt is displayed asking the user whether more packs of certificates are to be in3erted. If so, steps 105-115 are repeated until no more packs are to be added. At 120, a prompt is displayed instructing the u3er to insert the packs of certificate into the 35 printer. Preferably, the user is told the manner in which the pack should be oriented ~i.e., face-side up, llnflPrnf~ or on top of existing certif icates, etc . ) .

~o 9s/2s320 PCT/11595/03372 ; ~ 2~8568~

At 125, a prompt is displayed ~instructlng the user to close the housing door. ~ ~
The information transmitted to computer 24 during the loading process is stored as a seqùe~nce in:
memory device 2a, and is also sent to computer 60 in order to irlentify and track the certificates. FIGURE 6 illustrates the control flow program representing the tracking system of the present invention. At 130, in response to a user entering his gift choices and making the appropriate payment, computer 24 retrieves the first indicia from the~sequence stored in memory device 28.
At 135, a check is made to determine whether the certificate dispensed by laser printer 26 was scanned by scanner 19. Scanner 19 may nbt have been able to scan the indicia of the certificate dispensed either because it was traveling too fast along guide 27 or because the barcoded indicia was not well defined. If the certificate was scanned, computer 24 receives and reads a signal from scanner 19 repre=sentative of the barcoded indicia scanned. At 165, computer 24 compares the indicia retrieved from memory device 28 with that scanned by scanner 19. At 170, a check is made whether the two indicia are the same. If the indicia are the same, no certificate is missing, and at 190, computer 24 increments the next indicia in se~auence by one.
Computer 24 repeats steps 135~-190 until the two indicia compared at 165 are found not to be the same at 170.
If the certificate was not scanned because it was traveling too fast or because the barcoded=indicia was not well defined, scanner:19 sends a signal to computer 24 to that effect. ~t 140, a check is made to determine whether such a signal was received by computer 24. If=not, the certificate has not yet been dispensed and computer 24 repeats step 135, either until a certificate is scanned or until a signal is received by computer 24 indicating one of the two above-mentioned conditions. If computer 24 does receive such a signal, V.'O 95125320 PC~ S95103372 computer 2~ advances-to step lgo to increment the first indicia to r~lect the fact that a certificate was in fact not missing. Preferably, computer 24 still sends a 6ignal to computer 60 when a certificate is not read 80 that the event may nevertheless oe recorded. A repeated occurrence of such an event could indicate that the scanner is not functioning properly.
If the indida compared at 165 are different, at 175 computer 24 first determines how many certificates are missing (i.e., the difference between the value of the two indicia). Then, at 180, based on the current value of the indicia set by computer 24, the computer ~P~.~r~i nF~ the actual indicia of the missing certificate(s). At 185, computer 24 sends a signal to computer 60 representing the indicia of each missing certificate. Based on the indicia received from computer 24, computer 60 records the location of the dispensing device involved, and displays an error message on its monitor indicating theft has occurred.
In an alternate embodiment, the blank certificates stored within printer 26 are not pre-printed with barcoded indicia. ~ather, printer 26 prints the ~arcoded indicia on each certif icate upon receiving the user~ s selection of a gift amount and a ~ULV~y~L, and upon verification of the payment received by the user. ~ach time a certificate i3 printed, it is dispensed along guide 27 and scanned by scanner 19.
Scanner 19 sends a signal representative of the barcoded indicia disposed there to computer 24 for storage. In 3 0 this manner, only those certif icates having barcoded indica identical to one of those 6tored in computer 24 may be redeemed.
As previously i ,.~ 1, barcode indicia may be disposed on the underside of top surface 41 of input slot ll to help determine whether input slot ll is blocked, as well as whether scanner lg is operating properly ~see FIG~IRE 3B). The barcode indicia on input ~'0 95/25321~ PCT/I~S9S/n3372 slot 11 is of a dif~erent type than that disposed on the certificates and forms. Accordingly, computer 24 is ~
programmed to send a signal to scanner 19 to set scanner 19 to read the type of barcode- indicia disposed on lnput 5 slot 11. Computer 24 then sends a signal to scanner 19 to turn it on. If scanner 19-is able to read the barcode indicia, it sends a signal back to computer 24-to that effect (i.e. the input slot 11 is clear and the scanner is functioning properly). If scanner 19 cannot 10 read the barcode indicia, either because input slot 11 is obstructed Qr because scann=er 19 is not functioning properly, a signal is sent to computer 24 indicating that one of these conditions may have occurred.~ This signal is then transmitted to main computer 60 ~where an 15 error message to that effect is displayed. Once input slot ll and scanner 19 ha~re been tested, computer 24 sends a signal back to scanner 19 to reset scanner 19 to read the type of barcode indicia dispo3ed on the certificates and forms. Computer 24 may be ~L._~L -' 20 to make such checks periodically.
Each purchase made ~hrough gif t certi~icate dispensing devices 10.1 through 10.N is accumulated in and processed by computer 60. Requests for payment (debits to credit card accounts) for those purchases are 25 either submitted electronically through public telecommunications channel 46 and main computer 60 to -computer 62 or submitted as a bill printed from printer 64 . In a like manner, merchants are notif ied of purcha3es of gift certificates issued in their name and 30 of the code numbers of the certificates issued either through channel 46 or through a report printed by printer 64.
Some of these purchases, however, are made in advance of the . certif icate being issued by the dispenser 35 (i.e., pre-ordered certificates). A representation of a form 200 representing a pre-ordered gift certificate is shown in FIGURE 7. Form 200 is a standard size sheet af v~o ~s/2s320 l~ uv,' ~2 ~3~'f`~ ' 17 21 8;~)689 paper and may be divided lnto three sections 2~2, 204, and 206 If divided, section 202 provides identifying information, such as the name of the recipient at 208, the purchaser at 210, the gift amount at 212, and 5 preferably a greeting at 214 Sections 204 and 206 list the various IJLlLV~:y'JLa available from the gift certificate vendor at 214 and 216, respectively.
Section 206 also includes a barcoded indicia at 218 for identification purposes. The barcoded indicia is 10 composed of an account number at 220, an order number at 222, and a sequence number at 224. Sequence number 224 i9 preferably randomized or encoded in order to minimize the chances that 60meone might guess valid barcoded indicia .
- Recipients of such forms obtain their gift certificate from dispensing device 10 by inserting the barcoded indicia at 218 into input slot 11. This is accomplished by first folding back section 202 against the back of section 204, and then folding section 204 20 back against the back of section 206 or folding section 206 back against the back of section 204.
FIGURE 8 illustrates the series of representations of screen images that are displayed on monitor 12 once form 200 is inserted into input slot 11.
25 At 300, a prompt is displayed on monitor 12 telling the user that the transaction is being processed. While dispensing device 10 is processing the transaction, at 302, computer 24 begins to display a sequence of displays on monitor 12. The sequence of displays is 30 intended to familiarize the user with the gift certificate product itself and with the method used to purchase a gift certificate. These sequences are collectively referred to as an Attractor Module which is shown and described in U.S. Patent No. 5,234,174. The 35 screens from the Attractor Module continue to be displayed until processing is complete. If the barcoded indicia is valid (i.e., exists in the data file of ~ o 95/2532G PCTIUS95/0337~
~ ~ c - 2 1 85689 1~ =
computer 60 and has not yet been redeemed), at 304 a prompt is displayed instructing the user to select a ~
store. The user is provided with a variety of shopping options, such as by store type or geographic area. The 5 screen images displayed during- the selection of a store are set forth in U.S. Patent No. ~,243,174. At 306, a prompt is displayed asking the user to enter the name of the payee. Once~ the user selects a store and enters the name of the payee, at 308 monitor 12 rrnt;n~ to 10 display screens from the Attractor Module while the :user waits for the ~rt;fir~t~ to be printed and dispensed.
If the barcoded indicia is not valid, the user is preferably proviaed with a message to that effect on monitor 12 (not shown).
FIG~RE g illustrates the control flow~program representing the verificatior~ system for the above-~^ntirn~ pre-ordered gift certificate transaction. At 400, scanner 19 scans and read6 the barcoded indicia disposed on form 200 and transmits the data to computer 20 24. At 402, computer 24 transmits the data over telecommunications channel 46 to main computer 60. At 404, a check is made to determine whether the barcoded indicia exists within the data file of computer 60. If the indicia does not exist, at 406 computer 60 sends a 25 signal back to computer 24 that the transaction is invalid. If the indicia exist6, at 40~ a check is made to determine whether a certif icate having that barcoded indicia has already been re-deemed. If so, at 410, main computer 60 sends a signal back to computer 24 of the 30 ~ p,onF~;ng device indicating that the transaction iB
invalid. If not, at 412 mai~ computer 60 sends a signal back to computer 24 indicating the transaction is valid and allowed.
Dispensing device 10,can also be used as a 35 sweepstakes device. This transaction is similar to that described for pre-ordered gift-cert;f;r~t~. In particular, a user inserts a sweepstakes entry form -~o 9sl2s320 PC~ S9510337~
9 2 i 8 ~ 6 8 q having barcoded indicia dispose~ thereon into input slot 11. As with the pre-ordered gift certificate transaction, a ~equence of displays appears on monitor 12 in order to familiarize the user with the gift 5 certificate product it~elf a~d with the method used to purchase a gift certificate while the user is waiting f or the device to determine whether or not he or she has a winning form. Once the transaction has been proce3sed, a mes~age iB displayed on monitor 12 10 indicating whether the user is a winner, and if so, displays me~sages about the prize, 6uch a~ what it i6 and how to obtain it The control f low program representative of the sweepstakes application is likewi~e similar to that 15 shown in FIGURE 9. In summary, the barcoded indicia scanned by scanner 19 is transmitted to computer 24 which then transmits it to main computer 60 to determine whether the barcoded indicia represents a winning sweepstakes entry. Main computer 6~ then sends a signal 20 back to computer 24 indicating the status of the entry form (i.e. winner or lo~er) .
It should be apparent that the foregoing description i~; only illustrative of the invention and i8 not ' nt~nt~i~d to limit the scope of the coverage . For 25 example, while the routines are shown for a networked environment, it ~3hould be obvious to one skilled in the art _hat these routines are readily adaptable to independent operation of a gift certificate dispensing device. Thus, various changes to the form, detailR, and 30 arrangement of the disclosed device may be made without departing from the !3pirit of the invention as claimed in the following claims.

Claims (14)

WHAT IS CLAIMED IS:

1. A dispensing apparatus for dispensing an item of value having first machine-readable indicia disposed thereon on validation of means for paying for said item of value, said paying means having second machine-readable indicia disposed thereon, said apparatus comprising a housing, said apparatus also including means for receiving said paying means when said paying means is received from outside said housing and means from inside said housing for dispensing said item of value, said apparatus having means for reading said first and second indicia including a machine-readable indicia scanner, said apparatus further including means for processing information from said first machine-readable indicia to identify a security problem and means for validating said second indicia before allowing said receiving means to accept said paying means for said item of value.

2. A dispensing apparatus in accordance with claim 1, wherein said housing has a wall and said receiving means includes a slot in said wall; wherein said receiving means includes means within said housing for sensing physical presence of said paying means;
wherein said reading means includes means for activating said scanner when the physical presence of said paying means is sensed by said sensing means; and wherein said dispensing means includes means for guiding said item of value and said paying means so that said first indicia is scanned by said scanner as said item of value is dispensed by said dispensing means and so that said second indicia is scanned by said scanner when a portion of said paying means is inserted through said slot.

3. The dispensing apparatus of claim 1, wherein a plurality of items of value are stored within said housing and the information processing means further comprises error means for providing an error output signal when an unverified first indicia is detected.

4. The dispensing apparatus of claim 3, wherein the error means comprises:
first program means responsive to the scanner for creating and storing a sequentially ordered list of the first indicia for the items of value stored within the housing to create first program output signals;
second program means for reading the first indicia when one of the items of value is dispensed by said dispensing means to create a second program output signal;
means for comparing the second program output signal to an appropriate one of the first program output signals; and detection means responsive to the comparing means for detecting a difference between the second program output signal and the appropriate one of the first program output signals;
wherein the difference represents a gap in sequence of the first indicia of the items of value stored within the housing, so that a missing one of the items of value can be identified to indicate the security problem.

5. The apparatus of claim 1, wherein said first and second machine-readable indicia are first and second barcodes, respectively.

6. The dispensing apparatus of claim 1, wherein said information processing means comprises:
a programmable first computer connected to said scanner and said dispensing means, said programmable first computer being configured to receive and store validation information for said first and second machine-readable indicia.

7. The dispensing apparatus of claim 6, further comprising a programmable second computer having nonvolatile data storage means for storing the validation information representing the paying means, and means for providing communication between the first and second computers to validate the information from said second machine-readable indicia.

8. The dispensing apparatus of claim 7, wherein the second computer comprises program means for adding redemption status information to the validation information stored by the second computer upon verification of the paying means by the first computer.

9. The apparatus of claim 2, wherein said guiding means extends through an opening in the wall of said housing, said opening being spaced from said slot.

10. The arrangement in accordance with claim 2 wherein said sensing means includes a source of infrared light and a sensor of infrared light.

11. The arrangement in accordance with claim 1 including a test barcode indicia aligned so that when said scanner reads said test barcode indicia it can be verified that said scanner is operating properly.

12. A method for dispensing an item of value having a first machine-readable indicia disposed thereon from a dispensing apparatus in response to receiving a payment from a user, the payment having a second machine-readable indicia disposed thereon, the apparatus having a sensor, a dispensing means, a scanner, and a control means, the method comprising the steps of:
activating the scanner in response to the sensor sensing the presence of the payment inserted in the apparatus;
scanning the second indicia on the payment with the scanner;
verifying through the control means that the second indicia scanned by the scanner is valid to enable issuing of the item of value;
dispensing the item of value, said dispensing step including scanning the first indicia with the scanner as the item of value is dispensed by the dispensing means;
determining through the control means whether a security investigation needs to be made based on the first indicia of each item of value scanned by the scanner being in proper sequence or not.

13. The method of claim 12, further comprising the step of generating through the control means an error output signal when the second indicia scanned by the scanner cannot be validated.

14. The method of claim 12, wherein the step of determining comprises the steps of:
receiving the first indicia of the first and last items of value of a plurality of items of value stored within the housing;
creating through the control means a list of the first indicia of each item of value in the plurality of items of value stored within the housing in sequential order;
reading through the control means the first indicia from the list of first indicia created by the control means, in order, each time an item of value dispensed by the dispensing means is scanned by the scanner;
comparing the first indicia of the item of value scanned by the scanner with the first indicia read by the control means each time an item of value is scanned by the scanner; and detecting through the control means a difference between the indicia scanned by the scanner and the indicia read through the control means, any difference from being identical representing a gap in the sequence of the first indicia of the plurality of items of value stored within the housing, so that a missing item of value can be identified.