The invention pertains to privacy booths and, more particularly, to privacy booths associated with transaction terminals or customer service windows.
Identity theft continues to be one of the fastest growing crimes in the United States. It is important for consumers to recognize that identity theft is not just a financial crime. This crime varies widely, and can include financial identity theft (checking and/or credit card fraud), criminal identity theft, governmental identity theft, and medical identity theft. The Identity Theft Resource Center® (ITRC www.identitytheftcenter.org) is a nonprofit, nationally respected organization dedicated exclusively to the understanding of identity theft and related issues. The ITRC provides victim and consumer support as well as public education. The ITRC also advises governmental agencies, legislators, law enforcement, and businesses about the evolving and growing problem of identity theft.
When personal and/or financial information is publically disclosed, for example at the teller window of a bank, credit union, medical facility, or numerous other similar places, there is generally some risk that all or part of that information may be compromised (i.e., “stolen”) by a person not authorized to have access to that information. When information is entered into a public computer terminal or apparatus, for example, an Automated Teller Machine (ATM), there is still a risk of personal information such as a Personal Identification Number (PIN) being observed by an unauthorized person. Further, a financial transaction at a teller window may be compromised when a teller innocently asks a customer making cash withdrawal a question such as “how would you like the money, in one-hundreds, fifties, twenties, etc.” Such information may alert an observer to the fact that the customer will soon be carrying a possible substantial amount of cash.
In medical facilities, for example doctor's offices, hospital emergency room registration desks, pharmacies, or the like, personal information divulged by a client may be overheard.
In many facilities, a queue of waiting customers or patients are requested to stay an appropriate distance away from a window, counter, etc. where another person is conducting a transaction. Even with this precaution, it is still possible for a person in the queue to overhear some portion of the transaction.
The prior art shows several proposed solutions for limiting or eliminating the loss of sensitive information disclosed by a patient or customer at a teller window, a medical intake desk, an ATM, or any other facility where a user is required to divulge sensitive information.
For example, U.S. Pat. No. 6,241,151 for SELF SERVICE TERMINAL issued Jun. 5, 2001 to Stephen Swaine et al. teaches a self service terminal (SST) that has a front portion including a user interface located within a fascia. The fascia has a concave inner surface that defines a privacy area and which reduces reflection of sound. The inner surface is bounded by one or more extremities which project out from the terminal. The fascia has a canopy that extends beyond the projecting extremities. In use, the user places his head within or in proximity to the privacy area for increased privacy when using the terminal.
U.S. Pat. No. 4,773,338 for TRANSACTION SECURITY SYSTEM AND MODULAR TRANSACTION PROCESSING CENTER issued Sep. 27, 1988 discloses a transaction security device consisting of a booth of a material and construction capable of selective voluntary entry and involuntary personnel retention and incorporating a transaction interface; entrance means for said booth; a closure for said entrance means, and control means adapted to secure and unsecure at least said entrance means; and cooperating with said booth, disposed, therein, or indeed independent thereof, at least one secondary enclosure adapted to contain apparatus disposed upon at least one turntable within a housing module composed of an enclosure, portions of which are independently rotatable about said turntable and the devices disposed thereon; and means for access to the interior of said housing and with said transaction interface.
U.S. Pat. No. 4,813,475 for TEMPERATURE CONTROL MEANS FOR A SELF SERVICE BANKING SYSTEM issued Mar. 21, 1989 to Edward F. Couvrette provides a self service banking system including a walk-in kiosk housing an Automatic Teller Machine (ATM). The kiosk includes a pivotable interior access door on one end thereof which is pivotable between open and closed positions and a side wall rotatable quarter panel expansion area for allowing access to the interior of the ATM. The kiosk provides a secure enclosed environment for the automatic teller machine (ATM) and its contents. An air distribution system, a laminated wall insulation, heating and cooling systems and their controls are provided to maintain the interior temperature and humidity of the kiosk within the normal temperature and humidity operational range of the computer of the ATM during exposure of the kiosk to a wide range of ambient temperatures and humidity beyond the acceptable operating temperature and humidity range of the ATM and its computers.
U.S. Pat. No. 4,821,118 for VIDEO IMAGE SYSTEM FOR PERSONAL IDENTIFICATION issued Apr. 11, 1989 to Roget F. Lafreniere teaches a video image system for rapidly (in a few seconds) recording a person and his identification (ID) card makes video images of the person's hand palm and face along with the ID card presented by the person that may be a badge, card, drivers license, passport, or other item issued by some authority, and combines those images and presents the combined image on a video monitor for immediate inspection by a guard, store clerk or attendant, and, in addition, stores the combined image along with time and date superimposed thereon so that it can be reviewed later. The system includes at a designated place entered by the person to be recorded, a viewing table in easy reach of the person on which there are viewing areas for the person's palm and the ID card that he presents and video cameras arranged for scanning his palm, ID card and his face producing video images that are combined electronically producing a combined video image of the palm. An ID card and face may be viewed on a video monitor and recorded on a video cassette recorder (VCR) along with the time and date. The combined image that is recorded can be reviewed later as a review of the identification event.
None of the patents and published patent applications, taken singly, or in any combination are seen to teach or suggest the novel Modular Privacy Booth for Cooperative Use with a Teller Station, ATM, or the like of the present invention.
In accordance with the present invention there is provided a privacy booth for isolating a user from the surrounding environment so as to provide acoustical and, visual privacy to the user. A single privacy booth may be utilized when a user must interact with an electronic device or terminal, for example, an ATM. When interaction with a human, for example, a bank teller, a pair of joined privacy booths provide acoustical and visual privacy to both interacting parties. The solid but possibly transparent, reinforced, “bullet-proof”, etc. barrier between the user and the teller helps prevent “snatch and grab” type crimes and protects the teller from armed robbery attempts as well as other types of assault.
Access to the user's privacy booth is controlled using an access keypad. The access keypad may incorporate one or several devices such as a keyboard/keypad, a magnetic strip card reader, an OCR bar code reader, a Quick Response (QR) code optical reader, and a biometric scanner, for example, a fingerprint scanner.
Semi-circular doors open when a user enters an acceptable entry code or presents acceptable media.
A transaction pass-through box or tube allows the passing of paper documents back and forth between the user and the teller. Security features include a backscatter detector for detection of dangerous objects or materials placed in the pass-through box or tube. Additionally, each end of the pass-through box or tube is closed by a door that is interlocked such that only a door at one end of the pass-through box or tube may be opened at a time.
When the transaction(s) are complete, the user causes the door to reopen and leaves the privacy booth.
Optionally, the privacy booth may be equipped with a floor raising mechanism. A disabled user in a wheel chair or similar conveyance may remain seated while being elevated to an equivalent height of a standing user. The floor of the privacy booth may be rotated (typically 180°) to facilitate exiting of a wheel chair bound disabled user. Mechanisms for floor raising and rotating are typically located in an enclosure that hangs below the privacy booth necessitating installation of the privacy booth on an elevated floor that is typically ramp or lift accessible.
It is, therefore, an object of the invention to provide a privacy booth to enclose a user to provide acoustical and visual privacy to the user when he or she is divulging sensitive private information.
It is another object of the invention to provide a privacy that is substantially circular and has semi-circular doors that selectively open and close booth to enclose a user.
It is an additional object of the invention to provide a privacy booth to enclose a user that incorporates an entry keypad to allow only authorized users to open the door and enter the privacy booth.
It is a further object of the invention to provide a privacy booth connected to a second privacy booth, the first privacy booth enclosing a user thereby allowing the user to divulge sensitive personal information to a teller in the second privacy booth.
It is a still further object of the invention to provide a privacy booth to enclose a user having a transaction pass-through tube or box for bi-directionally transferring paper documents, cash, or other physical items between the user and the teller.
It is yet another object of the invention to provide a transaction pass-through tube or box having interlocked doors at each end thereof.
It is another object of the invention to provide a transaction pass-through tube or box having a backscatter detection system to help prevent contraband from reaching a teller.
It is yet another object of the invention to provide a privacy booth to enclose a user wherein a teller in the second privacy booth may activate an alarm when the need arises.
Various objects, features, and attendant advantages of the present invention will become more fully appreciated as the same becomes better understood when considered in conjunction with the accompanying drawings, in which like reference characters designate the same or similar parts throughout the several views, and wherein:
The present invention provides modular privacy booths for cooperative use with a teller station, ATM, or the like. The novel privacy booth may be used in applications where a customer, client or other person may securely reveal sensitive personal data or information while minimizing the risk of inadvertently sharing such data or information with a person unauthorized to receive such information. As used hereinafter, the term user is intended to represent any client, patient, or other such person in need of privacy to conduct a transaction.
The novel privacy booth may be used individually, for example, to protect the privacy at an ATM or other similar electronic work station. When two of the privacy booths are interconnected back-to-back for applications such as teller stations, etc., the privacy of both the user and the teller are protected.
Referring first to
Privacy booth 100 is structure having arcuate upstanding walls, typically forming a substantially cylindrical structure. It will be recognized that privacy booths in accordance with the invention may be constructed with arcuate upstanding walls to form structures other than circular structures. In still other embodiment, privacy booths may be constructed with a mix or arcuate and non-arcuate upstanding walls. In additional embodiments, privacy structure may be constructed with nothing but non-arcuate upstanding walls. Consequently, privacy booths having a wide variety of cross sectional shapes may be constructed. Therefore, the invention is not considered limited to a particular cross sectional shape. Rather the invention includes privacy booths having any cross-sectional shape.
An opening “O” 102 extends across a front facing region of privacy booth 100. Opening 102 is sized to accommodate a wheelchair, power chair, or other conveyance suitable for use by a handicapped person 254c, best seen in
Opening 102 may selectively be closed by a sliding door, typically implemented as a pair of sliding doors 104a, 104b that selectively open and close in directions shown by respective arrows 106a, 106b. In a closed position, outer edges 108a, 108b of respective sliding doors 104a, 104b meet at a central point 110, their outer edges abutting one to the other. When necessary, seals 112a, 112b may be applied to respective door outer edges 108a, 108b to improve acoustical privacy by limiting the amount of sound emanating from within privacy booth 100 to an external space, not specifically identified.
A door opening apparatus, not shown, is operatively connected to sliding doors 104a, 104b to perform door opening and door closing function upon command. Such door opening and closing mechanisms are believed to be well known to those of skill in the art and, consequently, are not further described or discussed herein.
An optional transaction pass-through tube or box 130 connects the interior of privacy booth 100 to a space directly behind the booth, typically a contiguous connected second privacy booth 250, best seen in
In privacy booth 100, a floor 114 is typically raised as small distance “H” 116 above the level of a surface, not specifically identified, upon which privacy booth 100 is supported.
A handrail 122 encircles the entire interior surface of privacy booth 100.
A top or dome 124 completely seals the interior of privacy booth 100. A signal assembly 126, discussed in more detail hereinbelow is affixed atop dome 124, typically proximate an apex, not specifically identified, of dome 124. It will be recognized that structures, not shown, other than domes 124 may be used to seal the upper portion of privacy booth 100.
Referring now also to
Privacy booth 100′ has all the previously described features and structures but in addition has an elevatable floor 114′ that raises a person seated in a wheel chair, scooter, or other such conveyance to a height whereat they may utilize privacy booth 100′ in an equivalent manner to a standing person. Floor 114′ is raised by a floor elevating mechanism, not shown, in
Note that privacy booth 100 and 100′ are typically sized to accommodate two adult persons inside, including one adult person in a wheel chair or similar conveyance.
Referring now also to
Additional features not shown in
External speaker 134 may be utilized in a number of ways but generally is connected as part of an intercom system, not shown. External speaker may, in some installations, be designated for emergency use only.
Referring now also to
Referring now also to
A bottom plate 140 supports a pair of scissor jacks 142a, 142b that support an intermediate support plate 152. Scissor jacks 142a, 142b each have a helical screw shaft 145a, 145b that raise and lower the respective jack. Scissor jacks are believed to be well known and may readily be designed and constructed to achieve the required lift of approximately between 2 and 6 inches A mechanism may be required to synchronize the speed of rotation of the helical screws 145a, 145b of jacks 142a, 142b to ensure level lifting of privacy booth floor 114′. It will be further recognized that a lift implementation using a single scissor jack may be possible as well as implementations using more than two scissor jacks may also be possible. Consequently, the invention is not considered limited to the two scissor jack implementation chosen for purposes of disclosure. Rather the invention is intended to incorporate implementations using any number of scissor jacks as well as implementations using pneumatic and/or hydraulic cylinders, or similar lift generating devices.
A mechanical coupler 144a, 144b connects respective helical screws 145a, 145b of jacks 142a, 142b to a first end of a flexible shaft 146a, 146b.
An opposing end of flexible shafts 146a, 146b is connected to an input of a geared speed reducer 148a, 148b, respectively.
An output of geared speed reducer 148a, 148b is connected to a drive shaft of a high torque, low speed DC motor 150a, 150b. A DC motor is chosen for ease of speed control and reversibility.
Intermediate support plate 152 is functionally attached to scissor jacks 142a, 142b and is raised and lowered thereby. Intermediate support plate 152 supports a floor 114′ rotation mechanism.
Floor 114′ has a central support axle 172 permanently affixed to a lower surface, not specifically identified, thereof. A lower end of central support axle 172 is rotatively received in and retained by a lower thrust bearing 174 that allows central support axle 172 to freely rotate therein.
Floor 114′ has a drive rim 154 depending from the lower floor surface adjacent its outer perimeter, not specifically identified, of floor 114. A lower edge of drive rim 154 is supported on an upper surface of a “lazy susan” style support bearing 156. Support bearing typically contains at least one bearing chase containing ball bearings exemplified by ball bearings 158 shown in
A rubber drive tire 168 is positioned to engage an inside vertical surface, not specifically identified, of drive rim 154. That inner surface, not specifically identified, of drive rim 154 may be roughened or have a non-skid surface treatment, neither shown, to ensure good engagement of rubber driver tire 168 with drive rim 154.
Rubber drive tire 168 is rigidly attached to a drive axle 166. A lower end of drive axle 168, not specifically identified, is operatively connected to a right-angle geared speed reducer 164. An input to right-angle geared speed reducer 164 is operatively connected to a drive shaft 162 of an additional high torque, lower speed DC motor 160.
Note that in
DC motor 150a, 150b and 160 are connected to a controller. Referring now also to
A DC power supply/battery charger 202 is typically connected to AC line power using connection devices and/or techniques believed to be well known to those of skill in the art. DC power supply/charger 202 is connected to a backup battery 204. Battery 204 allows the floor 114′ to be raised, lowered, or rotated in event of a power failure.
The DC power supply charger, in cooperation with battery 204 provides power to operate both the floor raise/lower and floor rotation mechanisms.
A Forward/Reverse switch 206, typically located inside privacy booth 100″ (
An output from Forward/Reverse switch 206 passes through a pair of limit switches, shown schematically at reference number 208, that stop the rotation of floor rotation motor 160 when floor 114′ reaches one of two predetermined angular orientations. Limit switches, procedures for placing limit switches, and wiring limit switches into motor control circuitry are believed to be well known to those of skill in the art and, consequently, are not further described or discussed herein.
A floor Raise/Lower switch 210, typically located within privacy booth 100″ (
An electrical output from Floor Raise/Lower switch 210 passes through a second pair of limit switches, shown schematically at reference number 212 that stop the rotation of floor raise/lower motors 150a, 150b when floor 114′ reaches a predetermined height and when floor 114′ and when floor 114′ is returned to is lowered, home position. Limit switches, procedures for locating limit switches, and wiring limit switches into motor control circuitry are believed to be well known to those of skill in the art and, consequently, are not further described or discussed herein.
In a floor raising implementation using two or more scissor jacks 142a, 142b, etc., it is necessary to synchronize the rise of the jacks. Uneven rising of scissor jacks 142a, 142b could result in floor 114′ becoming non-level. A large number of ways exist to provide such control. For example, encoder wheels, not shown, could be affixed to the helical screws 145a, 145b, of scissor jacks 142a, 142b. Signal outputs, not shown, from an encoder operatively connected to the encoder wheels could provide input to two or more motor speed controllers connected to floor lift motors 150a, 150b. Such a system is represented schematically as speed controller 214. As many other control devices, methods, and/or systems could readily be utilized, the invention is not considered limited to the optical wheel encoder system utilized for purposes of disclosure. Rather, any suitable speed controller that synchronizes the speed of floor raise motors 150a, 150b may be substituted therefor.
Further, as the floor raise/lower and floor rotation systems described in the context of privacy booth 100″ may also be adapted to any other of the privacy booth embodiments described and claimed herein.
Referring now also to
A user 178 is shown interacting with an ATM or the like 176. A work surface or shelf 122 is provided for the convenience of user 178. All of the other features previously discussed may readily be incorporated into privacy booth 100x.
Referring now also to
A barrier 180 separates the internal regions of privacy booths 100x and 250. Barrier 180 may optionally be completely or partially transparent to facilitate visual communication between privacy booth 100x and 250. It is assumed that barrier 180 may be made from a bullet proof material to provide security primarily to teller 252.
Privacy booths 100x and 250 are typically joined by transaction pass-through tube or box 130 sized and configured to allow two-way movement of paper documents, bills, and coins. Transaction pass-through tube or box 130 is equipped with interlocked doors best seen in
Referring now also to
Transaction pass-through tube or box 130 has interlocked doors or other sealing devices 182a, 182b at the customer end and the teller end, respectively. For clarity, doors or other sealing devices 182a, 182b are represented as sliding devices alternately movable between a sealed position 184 and an open position 186. Because of an interlocking system, only one of doors or other sealing devices 182a, 182b may be in open position 186 at one time. In other words, if doors or other sealing devices 182a is in open position 186, doors or other sealing devices 182b must be in sealed position 184. This arrangement prevents direct, potentially harmful communication between customer 152 and teller 254.
Typically, transaction pass-through tube or box 130 is formed from an explosion resistant (i.e., reinforced) material and is equipped with a backscatter detection system to alert teller 252 of the presence of any harmful material in transaction pass-through tube or box 130. Such materials may include small quantities of liquid explosive, plastic explosives, guns, knives, etc. Backscatter detection systems are believed to be well known to those of skill in the art and, consequently, are not further described or discussed herein. It will be recognized that any appropriate backscatter detection system may be used as part of the novel privacy booth system.
Referring again also to
Referring now also to
Customers (i.e., users) 254, 254a, 254b, 254c . . . 254n are shown in various stages of use of privacy booths 100a . . . 100d. Customers 254 are waiting in a queue for a chance to conduct business in one of privacy booths 100a . . . 100d.
Customer 254a is exiting privacy booth 100d, presumably having completed his or her business therewithin.
Customer 254b is utilizing access keypad 132c to allow entry into privacy booth 100c.
Customer 254c, seated in a wheelchair or similar conveyance, not specifically identified, within privacy booth 100a, is presumably in the process of conducting his or her business therein.
Attached to each of privacy booth 100a . . . 100d is an attached corresponding teller booth 250a . . . 250d, respectively. As best seen in teller booth 250a, a teller 252 is transacting business with a customer 254c.
Referring now also to
A wall 258 of teller station 250 may be constructed to conform and seal to an existing teller station 256. Sliding doors 260a, 260b and shown in a closed position. A teller 252, not seen in
The teller end of transaction pass-through tube or box 130 is shown. For clarity of illustration, doors 182a, 182b are not shown in
Teller station “components”, none of which form any part of the present invention are shown. A work surface 262 typically supports a computer monitor 264 and computer pointing device (mouse) 266. Personal objects 268, exemplified by a coffee cup and a pen) are also disposed on work surface 262. Note that personnel objects 268 form no part of the present invention. As series of “pigeon hole” compartments 270 are provided for storing paper forms, none shown, used for transacting business,
A computer keyboard 272 is suspended beneath work surface 262. A file cabinet 274 a chair 276, and computer 278 are disposed on the floor, not specifically identified, beneath work surface 262 within teller workstation 258.
A “silent alarm” foot switch 280 may be provided. Foot switch 280 may be utilized in a number of ways believed to be well known to those of skill in the security arts. Consequently, foot switch 280 is not further described or discussed herein.
Since other modifications and changes varied to fit particular operating requirements and environments wifi be apparent to those skilled in the art, the invention is not considered limited to the example chosen for purposes of disclosure, and covers all changes and modifications which do not constitute departures from the true spirit and scope of this invention.
Having thus described the invention, what is desired to be protected by Letters Patent is presented in the subsequently appended claims.
This is a Continuation-in-Part application of U.S. patent application Ser. No. 14/178,743 for MODULAR PRIVACY BOOTH FOR COOPERATIVE USE WITH A TELLER STATION, ATM, OR THE LIKE filed Feb. 12, 2014 and which is included by reference herein in its entirety.
Number | Date | Country | |
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Parent | 14178743 | Feb 2014 | US |
Child | 15202009 | US |