The present application relates to digital media rental and return kiosks, and is particularly directed to a digital media rental and return kiosk having a three-position lockable gate mechanism and methods of operating a digital media rental and return kiosk, such as a digital video disc (“DVD”) rental and return kiosk.
A typical DVD rental and return kiosk includes a gate which is movable between a closed position and an opened position as a customer interacts with the DVD kiosk to either rent a DVD or return a DVD. The gate blocks a slot through which either a DVD to be rented can be dispensed to the customer or a DVD to be returned by the customer can inserted. When the customer rents a DVD, the gate moves from the closed position to the opened position to unblock the slot through which the DVD to be rented can be dispensed to customer. The gate then moves back to the closed position. Similarly, when the customer returns a DVD, the gate moves from the closed position to the opened position to unblock the slot through which the DVD to be returned can be inserted by the customer. The gate then moves back to the closed position.
A drawback in known DVD rental and return kiosks is that some customers with multiple DVDs to be returned will try to insert more than one DVD at a time into the slot in hopes of more quickly returning the DVDs. Certain of these customers may even try to force multiple DVDs into the slot and thereby causing a jam in the slot. When the slot becomes jammed, a service call by field service personnel is usually required to clear the jam condition. It would be desirable to provide a DVD kiosk in which service calls to clear such jam conditions are reduced.
In accordance with one embodiment, a digital media rental and return kiosk includes a store arranged to store physical digital media items. The kiosk further includes a user interface (i) having a dispense and return slot, and (ii) arranged to enable a customer to interact with the kiosk to either rent a digital media item or return a digital media item through the slot. The kiosk also includes a delivery system arranged to (i) transport a digital media item to be rented from the store to the slot, and (ii) transport a digital media item to be returned from the slot to the store. The kiosk further includes a gate mechanism including a gate which is (i) movable from a closed position to a first opened position to allow a digital media item to be rented to be dispensed through the slot to a customer, and (ii) movable from the closed position to a second opened position which is different from the first opened position to allow a digital media item to be returned to be inserted through the slot by the customer.
Referring to
Kiosk 12 may also dispense digital media in other storage devices 40, such as Secure Digital (SD) cards, or may also electronically download digital media to customer-provided storage devices. A digital media transaction may include a sale of digital media or licenses to digital media. Digital media may include, but not be limited to, movies, television shows, music, music videos, video game software, productivity software and a wide array of additional file types and file formats.
Kiosk 12 may include computer 20, display 22, input device 24, payment peripheral 26, printer 28, radio frequency identification (RFID) tag reader 30, delivery system 34, and inventory data store 36.
Computer 20 includes a processor, memory, program and data storage. Computer 20 may execute an operating system such as a Microsoft operating system, and a web browser for viewing web pages. Computer 20 controls operation of kiosk 12. Computer 20 executes transaction software 38, which displays images of screens and records operator selections from those screens during a digital media transaction.
Display 22 displays the images of the transaction screens. Input device 24 records operator selections during a digital media transaction. Input device 24 may include a touch sensitive device or a keyboard. Input device 24 and display 22 may be combined as a touch screen.
Payment peripheral 26 may include one or more of a card reader for reading credit, debit, and/or loyalty cards; a currency acceptor; a currency dispenser; a coin acceptor; and a coin dispenser. Printer 28 includes a receipt printer, but may print additional information, such as coupons or other offers or promotions.
RFID tag reader 30 couples to antenna 32, which in this example, is located in the vicinity of digital media dispense and return slot 33 (see
Delivery system 34 delivers digital media to customers following selection and payment. For example, delivery system 34 may deliver digital media discs from storage locations within kiosk 12 or may burn digital media onto blank discs and deliver a newly burned disc. As another example, delivery system 34 may electronically download digital media to suitable electronic storage devices, such as customer provided mobile devices. Delivery system 34 also captures and stores returned digital media to the storage locations within kiosk 12.
Inventory data store 36 contains an inventory of digital media within kiosk 12, either physical discs or digital media files or both. Transaction software 38 updates the inventory of digital media each time a digital media item is dispensed or received. Transaction software 38 may also send updated inventory information to host server 16 via network 14. Host server 16 may manage inventory in a plurality of kiosks 12. Network 14 may include a cellular communication network, a global communications network also known as the Internet, a wired or wireless network, or any combination of such networks.
Lockable gate mechanism 50 includes stepper motor 52 operatively coupled to cam assembly 60 which, in turn, is operatively coupled to movable gate member 80. Gate 80 covers and uncovers dispense and return slot 33. Gate mechanism 50 further includes sensor 88 which provides a sensor output signal indicative of position of gate 80. Sensor 88 may comprise an optical type of sensor, for example.
Computer 20 monitors sensor output signal of sensor 88 and provides a control signal to control operation of stepper motor 52. Stepper motor 52 is controlled to move cam assembly 60 to open and close gate 80 and thereby to unblock and block dispense and return slot 33, as will be described hereinbelow.
Referring to
Kiosk 12 includes housing 90 having storage locations for storing digital media. Kiosk 12 further includes user interface 92 which includes touch screen 23 (which is a combination of display 22 and input device 24 shown in
Dispense and return slot 33 provides an opening through which digital media items (DVDs in this example) in their cases are dispensed and into which returned DVDs in their cases may be inserted. As shown in
Referring to
Stepper motor 52 is mechanically coupled through shaft 54 to cam assembly 60. Cam assembly 60 has cam surface 61 and is rotatable about pivot point 58. Pivot point 58 lies along the longitudinal central axis of rotation of the shaft 54 of stepper motor 52.
Cam follower pin 70 rides along cam surface 61 when cam assembly 60 rotates about pivot point 58. Cam follower pin 70 is attached to one end portion 74 of linkage member 72 which is pivotable about pivot support 78. Accordingly, cam follower pin 70 is pivotable about pivot support 78. Opposite end portion 76 of linkage member 72 has stud pin 77 which is operatively and slidably coupled in U-shaped opening 79 of horizontally-extending U-shaped portion 81 of gate 80 to move gate 80 either up or down (as viewed looking at
Referring to
When cam assembly 60 is rotated a first angle (which may be about 36 degrees, for example) in counter-clockwise direction (as viewed looking at
When cam assembly 60 is further rotated a second angle (which may be about 90 degrees, for example) in counter-clockwise direction (as viewed looking at
When cam assembly 60 is further rotated a third angle (which may be about 54 degrees, for example) in counter-clockwise direction (as viewed looking at
Referring to
If determination in block 104 is negative (i.e., a “rent” transaction has not been selected), the process proceeds to block 106 in which a determination is made as to whether the customer has selected a “return” transaction. If determination in block 106 is negative (i.e., a “return” transaction has not been selected), the process proceeds back to block 102 to display on the display 22 the screen which allows the customer to select either a “rent” transaction or a “return” transaction.
However, if determination in block 106 is affirmative (i.e., a “return” transaction has been selected), the process proceeds to block 110. In block 110, a screen appears on display 22 to direct the customer to position the DVD 40 in its case to be returned near the slot 33. RFID tag reader 30 then senses and reads RFID tag 42 on the DVD 40 to be returned (block 112).
A determination is then made in block 114 as to whether the DVD 40 to be returned belongs to the particular kiosk 12. More specifically, transaction software 38 looks up the digital media item associated with RFID tag 42 and verifies that DVD 40 belongs in kiosk 12. RFID tag 42 receives energy from an electromagnetic field and responds with a signal containing information identifying DVD 40. Transaction software 38 uses the information to determine whether to accept digital media storage device 40. Transaction software 38 may deny acceptance if no RFID tag 42 is present or if the identification information in RFID tag 42 is not included in inventory records within inventory data store 36.
If determination in block 114 is negative (i.e., the DVD 40 to be returned is determined to not belong to kiosk 12), then the process proceeds to block 116. In block 116, the customer is informed to check the DVD 40 to be returned. The customer may be informed by displaying an appropriate message on display 22, for example. The process then goes back to block 110 to display the screen to direct the customer to position the DVD 40 in its case to be returned near the slot 33.
However, if determination in block 114 is affirmative (i.e., the DVD 40 to be returned belongs to kiosk 12), the process proceeds to block 124. In block 124, computer 20 controls stepper motor 52 to move cam assembly 60 to move gate 80 from fully-closed position shown in
Since gate mechanism 50 is in locked condition shown in
After the returned DVD 40 in its case is received through the half-opened slot 33 (block 126), computer 20 controls stepper motor 52 to move cam assembly 60 from the position shown in
Sensor 88 detects when gate 80 has dropped completely to the fully-closed position shown in
Computer 20 controls delivery system 34 to transport the returned DVD 40 in its case to a storage location within kiosk 12 (block 130). Transaction software 38 updates inventory data store 36 to reflect storage of returned DVD 40 in its case within kiosk 12 (block 132). Computer 20 controls printer 28 to print a DVD return transaction receipt which is delivered via printer receipt slot 29 to the customer to complete the DVD return transaction (block 134). Process then ends. Alternatively, process may go back to block 102 to display the screen which allows the customer to select either a “rent” transaction or a “return” transaction as already described hereinabove.
However, if determination back in block 104 is affirmative (i.e., a “rent” transaction has been selected), the process proceeds to block 140. In block 140, a screen appears on display 22 to allow the customer to select a DVD to be rented. After the customer selects the DVD to be rented (block 142), the process proceeds to block 144. In block 144, computer 20 controls delivery system 34 to transport the DVD in its case to be rented from a storage location within kiosk 12 to slot 33.
Then in block 146, computer 20 controls stepper motor 52 to move cam assembly to gate 80 from fully-closed position shown in
After the DVD to be rented is dispensed through fully-opened slot 33, computer 20 controls stepper motor 52 to move cam assembly 60 from the position shown in
Sensor 88 detects when gate 80 has dropped completely to the fully-closed position shown in
Transaction software 38 updates inventory data store 36 to reflect rental status of the DVD which has just been dispensed to the customer (block 152). Computer 20 then controls printer 28 to print a DVD rent transaction receipt which is delivered via printer receipt slot 29 to the customer to complete the DVD rent transaction (block 154). Process then ends. Alternatively, process may go back to block 102 to display the screen which allows the customer to select either a “rent” transaction or a “return” transaction as already described hereinabove.
It should be apparent that gate mechanism 50 is in locked condition only when gate 80 is in either the half-opened position (
It should also be apparent that when gate 80 moves from the fully-opened position (
It should further be apparent that gate mechanism 50 is unable to go from an unlocked condition (such as shown in
It should also be apparent that only a single cam (i.e., a single cam surface 61) is used to provide the lockable three-position gate mechanism 50 as described hereinabove. This reduces complexity, resulting in lower costs to provide functionality as described herein.
While the present invention has been illustrated by the description of example processes and system components, and while the various processes and components have been described in detail, applicant does not intend to restrict or in any limit the scope of the appended claims to such detail. Additional modifications will also readily appear to those skilled in the art. The invention in its broadest aspects is therefore not limited to the specific details, implementations, or illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the spirit or scope of applicant's general inventive concept.