Abstract:
A primary communication channel for drive-in customers performing financial transactions with bank teller while customers are in their cars from the drive-through lanes. This telecommunication system is a conduit secured line telephone receiver for each separate lane and is interconnected with corresponding headsets. The total design prevents cross-talk, amplified overhead conversations to other customers in their cars or to persons walking perimeter of drive-through banking areas. Each customer is provided with a complete primary communication channel for financial transactions Preventions of customers being identified as potential victims of financial exploitations through car tag associations with amplified conversations. Improved apprehension of person attempting to rob bank from bank teller&#39;s transaction window of drive-in area.

Description:
BACKGROUND OF INVENTION 
     1. Field of Invention 
     This invention relates to a confidential financial security banking system for banking consumers. Specifically, to an improved banking security system to protect the communication of customers requesting financial transactions of services from or with bank-tellers in the lobby of banks and from drive-in/drive-through banking lanes. 
     2. Related Art 
     Originally; and currently, persons entering the lobby of any banking institutions, must go directly to the bank-teller&#39;s window to communicate their transactions, while doing this financial transaction, other persons are constantly entering the bank lobby. Each person stands directly behind each other; thus forming a “waiting-line” to perform similar financial transactions of business from the bank-teller. The second or third person in the “waiting-line” has a clear opportunity to “listen” to and observe the customers financial transactions. The current banking security system does not provide any secured communications of the customers financial transactions to keep other banking customers from listening to conservations the customers are discussing with the bank tellers. The current system allows for open and unprotected communications and for banking customers to be easily identified as potential victims of financial exploitation&#39;s or become extorted. 
     It is well known throughout the world; that the banking consumers-population is consistently increasing, that financial exploitations, extortations and bank robbers are also increasing. There is not a general method of prior art addressing these problems with solutions within the entire banking industries. Nor, is there a general method of an anti-theft invention of this nature to protect banking personnel and banking consumers. 
     3. Summary of Invention 
     This invention provides an anchored steel framed structural chamber of Paltech paneled construction, mirrored on the outside, 15′5″ L, 6′5″ W, with electronic sliding doors of 3′ wide. This structural chamber is easily anchored within the lobby of bank directly in front of each bank teller&#39;s transaction area. Bank teller controls electronic opening and closure of sliding doors, permitting only one customer to enter and exit at a time to perform financial transactions. 
     The advantages of this invention provides a protected financial transaction between customer and bank teller, prevents other “customers waiting in line” within the bank lobby from listening to previous customer&#39;s financial transaction, and lip reading of customer&#39;s financial transaction is also eliminated. An additional advantage of this invention ensures banking customers performing financial transaction with teller from being identified as targeted victims for financial exploitation&#39;s or extortion by observant perpetrators waiting in the bank lobby. 
     It is also well known throughout the world that as the population continues to ages, most consumers will become “hearing impaired” and consequently they will talk louder. The U.S. Census Population Graph below, indicates projected growth of age 65+ in millions to year 2050.″ 1  The U.S. Census provides opportunities of marking progress of the consumer-population and identifies growth of every interest in this society. Therefore, a clear potential for financial exploitation&#39;s and extortion&#39;s will increase proportionally with this growth. 
       1  Data Base News in Aging. U.S. Census Bureau. The Official Statistics. August, 17. htt//blue census gov/search/cigi/s                           
     A further advantage of this invention eliminates accessibility for perpetrators to rob banking institutions, and provides immediate apprehension of any person attempting to rob a bank from within lobby of bank after entering structural chamber to request any type of financial transaction. 
     This invention for banking-lobby financial transaction is TDDY equipped at Bank teller&#39;s transaction counter for deaf-consumer population and is wheelchair accessible. 
     An additional advantage of this invention provides for customer from drive-in, drive-through banking lanes to initiate and or communicate with bank teller from their car without conversations being heard by other customers waiting in their cars or by persons walking around the parameters of drive-through banking lane areas. A telephone receiver is interconnected with money depository module and has a retractable flexible conduit card attached to phone receiver with an extension capacity for customer to hold phone receiver, while in a comfortable sitting position in a car to perform conversation of financial transaction. Bank teller at drive-in window transaction has a wireless system communication headset which provides a complete private conversation channel between drive-in, drive-through banking customer with bank teller. 
     This total invention and its object provides protection for banking personnel, prevents endangerment to banking consumers and increases levels of security as their conversations with bank tellers are not being heard by other customers. 
     Further advantages of this invention will become better understood by reference to the detailed description and viewed drawings. 
    
    
     BRIEF DESCRIPTION OF DRAWINGS 
     FIG. 1A is a parallel view of exterior entryway security chamber; 
     FIG. 1B is a parallel view of inside illustration of security chamber and teller window; 
     FIG. 1C is a longitude outside schematic view of drive-in/drive-through teller window; 
     FIG. 2 is a diagrammatic view of layout perimeter of security chamber; 
     FIG. 2A is a perspective view of anchor choices illustrating the mounting of assembly; 
     FIG. 2B is a sectional view of gauge steel hold-downs to stabilize structure; 
     FIG. 3 is a diagrammatic inside view of teller transaction window; 
     FIG. 4 is a partial sectional view of double stud beam assembly; 
     FIG. 4A is a sectional view of window casing; 
     FIG. 5 is a diagrammatic view of entrance wall configuration; 
     FIG. 5A is a partial view of entrance way door headers; 
     FIG. 5B is a diagrammatic view of entrance door sliding tracks; 
     FIG. 6 is a perspective diagrammatic view of containment room assembly; 
     FIG. 6A is a plan view of hydraulic scissors type supporting component parts for steel drop doors; 
     FIG. 6B is a sectional view of gauge steel bottom plate track for containment room; 
     FIG. 7 is schematic view of conventional electrical wiring system; 
     FIG. 8 is a schematic view of conventional filtration unit for building; 
     FIG. 9 is a side perspective view of the bank teller window; 
     FIG. 9A is a clear perspective view of drive-through communication module; 
     FIG. 10 is a illustrative overview of the lobby banking financial security transaction and interconnected privacy telecommunication drive-in, drive-through channels. 
    
    
     DETAILED DESCRIPTION OF INVENTION 
     In describing preferred elements of this invention, it is to be understood that each specific element includes all technical equivalents which operates in a similar manner to accomplish a similar purpose. 
     FIG. 1A, FIG.  1 B and FIG. 1C provides overview of elements of security systems structure  5  in accordance  6  comprises a steel drop door to a secured containment room for apprehension of bank robber from within lobby. While  3  comprises controlled teller/customer verbal and financial transaction areas for maximum protection, and FIG. 1C shows side exterior similar arrangements. 
     FIG. 2 Detailed elements provides the layout perimeter of 12 “Lobby Banking Financial Security Chamber,” as 7′×16′ OD and establish 14 anchor location line of 1¾″ inside first line all the way around. Establish 16 anchor locations from intersecting corner lines for teller end wall. Now, measure on a horizontal plane, inward from both ends 5¾″ and 24″ on center for a total of 4 anchor locations. For entrance sliding doors to Lobby Banking Financial Security Transaction Chambers; measure on a horizontal plane, inward from both ends 5¾″ and 14¼″ on center for total of 4 anchor locations. Now, for wall construction, measure on a vertical plane, inward from both ends 6¾″ and 25″ on center for a total of 7 anchor locations. Both walls are with identical measurement and locations. 
     FIG. 2 a  Using  18 , 1″ conventional drill bit; drill  19  hole depth of 7½″ deep, clear all debris from holes with 20 manual or conventional air compressor. 
     Now we are going to use  21  ET-22 Epoxy-tie resin, and place in each hole, one at a time, fill half full from bottom up and to avoid air bubbles, slowly withdraw  22  mixing nozzle as hole is being filled.  24  insert ⅞″ 11 UNC 2A×8½″ anchor threaded stud flat, and turning slowly until seated.  24  anchor threaded stud flat will have a  26  1″ above grade check for plumb. Set time is 6 hours and cure time is 24 hours. It is noted here that Epoxies offer stronger bonding, shorter cure time, and less hydrolization that other types of resin anchors. ET-22 Epoxy-tie is a two-component amine-based system for high strength bonding. 
     Locate on all 28 bottom plate track, corresponding 16 anchor locations and pre-drill with  18  1″ conventional drill bit. Apply polyurethane sill sealer to all edges of bottom track webs and install over  24  anchor threaded stud flat, ⅞″ UNC 2A×8½.″ It is noted here that the anchor stud and installations used in this design is for an existing floor. A powder driven anchor provides another option, such as, ½″ ×10″ A.B. 6′-0″ O/C (TYP. UN.0.) 9″ from ends. Minimum 2 per track section. There are several anchor choices available for new single or double pour floors; for single pour S/PAHD42, S/MPAHD, S/HPAHD22, HPAHD22-2 holddowns, and for double pour, typical HPAHD22-2P or typical S/HPAHD. 
     Teller wall has a horizontal length of 7′ with 4 anchor locations, entrance wall will be a 2′  28  bottom track length on each side of the wall and with two anchor locations on each side. Vertical bottom track wall length is 15′5″, I.D. (inside diameter). Vertical  28  bottom plate track has 7 anchor locations, and with other side being identical. Both vertical  28  bottom plate tracks will butt both horizontal  28  bottom plate tracks. 
     FIG. 2 b  Install  30  S/HD 8-10 gauge steel holddowns, ¼″ plate at all corners to stabilize structure. Secure to corners with 24 #10 screws. To anchor, secure all anchors with  32  heavy locking washer {fraction (15/16)}″ steel and  33  hex nut ⅞″ UNC  2 B steel. Total number of 16 anchor locations is  22 . 
     FIG. 3 Provides detailed elements of teller transaction window wall within the Lobby Banking Financial Security Chamber. To make double studs interconnect  34  two (2) single studs of 3½″ ×8′ 20 gauge steel fastened together through flanges with  37  ¾ #8 teks low profile pan head screws pan head screws through flanges on both sides of studs. 
     Now, install vertical  36  double stud assembly to  28  bottom plate track 3½ 20 gauge steel to each end, and secure with  31  ¾″ #10 teks low profile pan head screw through each flange. There are four (4) flanges here. From top of inside face of  36  double studs, measure down 3½″ of each assembly of each side. Fasten to  36  double studs  38  bent plate angle steel 3″×3″×3″×¼″ (each side is 3″ tall and 3″ long by ¼″ thick), using  31  ¾″ #10 teks low profile pan head screws, and each side of angle will require three (3) of these pan head screws. Take  39  horizontal beam double stud which is 6′5″ and place on  38  bent plate angle 20 gauge steel 3″×3″×3″×¼″. Fasten angle to beam from bottom side with  31 . There are three (3) screws required for each side. 
     Install 6′5″ length of  48  1¼″ window casing steel to underside and outside edge of  39  horizontal beam, fasten with  66  1¾″ #10 teks low profile pan head screws. Measure inward from each end 2½″. Now, measure and place screws every 24″ apart. There are four (4) screws required for these. From  39  horizontal beam  36  double stud intersection, install vertical length of  48  1¼″ window casing steel on each side of 18½″ in length, use  66  1¾″ #10 teks low profile pan head screws. Measure 7″ apart and fasten to studs on both side, three (3) on each side. To  36  install  38  bent plate angle 3″×3″×3″×¼″ 20 gauge steel with one on each side. Fasten this with  31  ¾″ #10 teks low profile pan head screws, and put three (3) screws to each side of angle. Fasten  42  3″×¼″ plain plate 20 gauge steel with horizontal measurement of 6′5″ and fasten with  41  ½″ #8 teks low profile pan head screws. To bottom of  42 , install  43  a 2″ double window track 20 gauge steel to bottom of  42  3″×¼″ plain plate 20 gauge steel, and fasten with  41  ½″ #8 teks low profile pan head screws. Measure every 24″ and secure pan head screws. Now, continue with  43  2″ double window track 20 gauge steel, install in a downward, vertical length with a measurement of 2′8″ for both sides, and fasten with  41  ½″ #8 teks low profile pan head screws, measure every 24″ and secure screws. 
     Install  38  bent plate angle 3″×3″×3″×¼″ steel 20 gauge to  36  double studs with  31  ¾″ #10 teks low profile pan head screws and continue in horizontal measurement of 6″5 40   to  43  2″ double window track 20 gauge steel; leave a 2″ space for  49  2″ granite counter top and at 2′10″, install  50  3″ clip to  36  double studs, on each side with  31  ¾″ #10 teks low profile pan head screws and fasten  44  top plate track; 3½″×6′5″ 20 gauge steel and  28  bottom plate track 3½″×7′ 20 gauge steel, fasten with  31  ¾″ #10 teks low profile pan head screws, using one pan head screw on each flange. 
     Now, returning to top of wall, install into the 6′56″×21″ opening from the back side  45  1″ Bullet and Bomb Resistant Paltech Advanced Polymers Plastic; mirrored on outer side, 6′5″×1″×21″ and attach  46  ¼″ vinyl wedge gasket using a caulking gun with  47  silicon sealer (conventional), spread on both sides and entire length of  46  ¼″ vinyl wedge gasket, then secure to the 6′5″×1″×21″ Paltech panel. Install  48  1¼″ window casing 6′5″ to underside of outside edge of  39  horizontal beam with  66  1¾″ #10 teks low profile pan head screws. Measure 2½″ inward from each end. Remaining screws are 24″ apart on bottom window casing as this is identical. Vertical side pieces are 18½″ long. Measure 1¼″ inward from each end and remaining screws are 8″ apart. 
     Now, element  51  install sliding window panels 2′8″×1″×1′ with  45  1″ Bullet and Bomb Resistant Paltech Advanced Polymers Plastic; mirrored on outside, install in back track of  43  2′ double window track 20 gauge steel. These panels are pre-framed from manufacture. This creates 2′8″×1″×1′ teller transaction window in front track of  43  2″ double window track 20 gauge steel. Install 2′8′×1″×6′5″  45  Paltech panel with  46  ¼″ vinyl wedge gasket all around. Using caulking gun with spreading  47  silicon sealer (conventional) all around. Install  48  1¼″ window casing all around and attach to  36  double studs with  31  1¾″ #10 teks low profile pan head screws, and measure horizontal 6′5″ and 12″ on center, then measure vertical 2′8″ and 8″ on center. Back of wall is identical.  45  Paltech panel has a 4″ circumference cut for teller communication. 
     Element  53 , measure 43″ from teller counter top to floor, install 6′5″×2″×1″×43″ sheet of synthetic marble covering front and back of teller wall.  60  measure directly centered in front of teller window located on floor is 2″×4″×5′ steel drop door. Additional embodiments are shown in FIG. 5 b , FIG.  6  and FIG. 6 a.    
       54  Electrical Master Control Console 20″×3″×5″ is located behind teller wall underneath teller transaction counter top and is floor mounted at a 45 degree angle. The  54  Electrical Master Control Console is also within an extended distance where the bank teller will be able to extend leg to reach  54  push button switches with foot, while standing or in a sitting position. Additional embodiments are shown in FIGS. 4,  5 ,  5   a ,  5   b ,  6 , and  7 ; as each push button controls  68  Leaner Track Lighting System,  70  Fire Sprinkler,  58  Security Camera Lens Track System,  74  Entrance Doors with Locks,  51  Teller Sliding Windows with Locks,  56  Pepper Gas Spray Heads,  60  Steel Drop Doors with Locks, and  55  Alarm System. These systems can be activated independently of each or together simultaneously. Element  111  is also shown in FIG. 5 b  and FIG.  9 . 
     FIG. 4 Describes detailed elements of Interlocking  36  Double Stud  39  Horizontal Beam Assembly of Lobby Banking Financial Security Chamber walls which measured 15′5″ in length. Fasten this to  28  bottom plate track through flange using  41  ½#8 screws and put 2 screws on each side of  36  double studs. Now, fasten previously installed  30  S/HD holddown with  31  ¾″ #10 screws, with already pre-drilled holes and 24 screws are required.  109  TDDY System is counter mounted for hearing impaired. 
     Fasten together two (2)  24  single stud, using ½″ #8 screws, and measure every 24″ apart through flanges for each screw, 8 screws are required to make a  36  double stud assembly. Measure 3½″ from end of stud, prior to fastening together. Cope flange and bend outward. Cut and discard web; this is done to each single stud, one end and one side. Fasten studs together with  41  ½″ #8 screws, place one screw every measured 24″ through flanges on both side.  39  horizontal beam, when erected will be threaded into  36  double studs and fastened; creating an interlocking  36  double stud  39  horizontal beam connection and providing maximum strength for the stud and beam structure. 
     To previously installed  28  bottom plate track, a length of 15′5″, measure and mark all  36  double stud location of 37″ apart for a total number of 5 sets of  36  double studs. Erect each set and center  36  double studs in track on location marks. Fasten these to  28  bottom plate track using  31  ¾″ #10 screws, and put one screw through each flange on each side. Both walls are identical. Install all  36  double studs at this time. 
     Raise and install  39  horizontal beams 6′11″ in length as follows: raise  39  horizontal beam, thread into coped  36  double stud, fasten through bend out flanges to  39  horizontal beam 
     Use  31  ¾″ #10 screws, measuring 1½″ apart vertically and horizontally. Put 6 screws on each side of  36  double studs for connection. To underside of  39  horizontal beam and  36  double stud intersection, fasten  38  bent plate angle, using  31  ¾″ #10 screws and 4 screws to each side of angle; eight (8)screws are required on the already pre-drilled bent plate. Now to bottom of  39  horizontal beam, raise  62  head track of 6′8½″ in length flange turned up and secure to bottom of  39  horizontal beam through  62  head track web and flanges on both sides. Now, measure inward 2½″ from edge of  62  head track web end, and 1″ inward from outside web edge for first row of screws. There are 2 rows and remaining screw locations are 35″ apart for each row. Flange screws correspond to horizontal web screw locations. With vertical spacing of ½″ from top edge of flange. Use  31  ¾″ #10 screws and ten (10) screws are required. 
     Element installation of  44  top plate track. The  44  top plate track is 15′5″ in length, with a manufactured coped-straight out flange on one side. Now, erect and set in place over tops of  36  double studs and connect from end to end. Turn coped flange to inside and fasten outside track flange to outside face of  36  double studs, with one on each side. Use ¾″ #10 screws, putting two screws of equal distance apart on each stud. A total of 10 screws are required. 
     FIG. 4 a  To inside web of  44  top plate tract, install  40  1″×2″ window casing 34″ long, butt to flange. Secure casing by fastening through  44  tops plate track down through casing, using  41  ½″ #8 screws, measuring  10{fraction (5/16)}″ apart; three ( 3) screws are required for this. To  28  bottom plate track install  40  1″×2″ window casing 34″ long butt to flange, secure down through casing to track with  64  1¾″ #8 screws, measured 10{fraction (5/16)}″ apart. Three (3) screws are required. Butt to bottom and top  40  1″×2″ window casing, of 7′11⅞″ on side section. Fasten through casing to  36  double studs and using  64  1¾″ #8 screws, measure 2½″ inward from each end. Installation of remaining screws are 18″ apart and 7 screws are required on each side. 
     We are now going to backside of  40  1″×2″ window casing and apply  63  conventional Epoxy sealer. Insert manufactured cut-to-fit panel of  45  1″ Paltech plastic panel 34″ wide×1″ thick×7′11¾″ long with  46  ¼″ vinyl wedge gasket. To  28  bottom plate track, install  40  1″×2″ window casing 34″ long. Butt to flange and secure down through casing to track with  64  1¾″ #8 screws, measuring 10{fraction (5/16)}″ apart. Three (3) screws are required. Butt to bottom  40  1″×2″ window casing, 7′11⅞″ for inside section. Now, fasten through casing to  36  double studs with  64  1¾″ #8 screws, measured 2½″ from end edge distance of each end. Remaining screws are 18″ apart, and 7 screws are required on each side. Lets install  46  1¼″ vinyl wedge gasket with  47  silicon sealer. There are five (5) panels per wall length. 
     Elements of ceiling installations are as follows: measure down from top edge of previously installed  39  horizontal beam 1″ on both ends, mark and strike a line end to end. Install 6′8½″ length of  40  1″×2″ window casing. Use  66  1¾″ #10 screws. Measure 2½″ inward from end edge remaining screws are 16″ apart and 5 screws are required. Now, fasten through  48  1¼″ window casing to  39  horizontal beam and fasten through casing to both beam. Apply  63  epoxy sealer to top side of  40  1″×2″ window casing, and each end of manufactured pre-cut  45  1″ Paltech Panel of 34″ wide×1″ thick×6′8½″ long.  45  1″ Paltech Panel will be maneuvered up through span between  39  horizontal beams and threaded into position, end edges of  45  1″ Paltech Panel butt to side window panel and rest on horizontal  40  1″×2″ window casing length. Weight of ceiling panel and  63  epoxy sealer provides an air tight seal, fully supported ceiling and wall Paltech connection. Both walls of structure are identical with this installation. All ceiling installation are also identical. 
     Elements of  68  track lighting, halogen system, will be installed inside chamber, 7′8½″ top parameter of chamber structure, 6′5″ wide, 15′5″ length. A conventional  70  fire sprinkler head is located on  39  horizontal beam, measuring 3′2½″ on center. This sprinkler system is interconnected with already existing banking sprinkler system. 
     FIG. 5 Provides-detailed elements of Entrance Wall Configuration. This entrance is 7′ in width, center is 3′6″, to each side of center, measure 18.″ This measurement combined equals 36″, which is the width of the  74  entrance doors and the  73  doorjamb location begins on these measurements. We are going to erect and install  36  double studs 6′9″ in length. To previously installed  28  bottom plate track, using  37  ¾″ #8 screws, fasten through track flange 2 screws are on each side. Four (4) screws are required. Identical installation is for other side. 
     Now, we going to install a second set of  36  double studs 8′ in length. To  28  bottom plate track using  37  ¾″ #8 screws and fasten through track flange, two (2) screws on each side. Four (4) screws are required. These studs are erected and standing side by side. The other side is identical. This installation will provide maximum load bearing support for  74  entrance doors and  71  door header. 
     Lets measure a distance of 14″ and install corner  36  double stud assembly 8′ in height and both ends of entrance are the same. We are going to erect  36  double studs and fasten to  28  bottom plate track through flanges. Using  37  ¾ #8 screws, two (2) screws on each side, equal distance apart, for a total of 8 screws. Secure previously install  30  S/HD holddown to  36  double studs with  31  ¾″ #10 screws, 24 screws are needed for each installation for each end of wall. 
     Now, we must connect to both previously erected  36  double stud assemblies 6′9″, a horizontal length of  62  head track a length of 3′7″. Cope web on both ends of 3½″ of  62  head track flange pointing them up, bend web in an upward direction. Secure coped web to  36  double studs, and both ends. Use  41  ½″ #8 screws, two (2) on each side and each end; measured 1″ apart. Secure coped cut flanges to  36  double studs, use  41  ½″ #8 screws, two screws (2) for each flange, measured 1″ apart. There are eight (8) screws required. 
     To  62  head track install in a vertical direction, two (2)  72  cripple studs 10″ in length, with flanges turned facing each other, secure to  36  double studs on each side and fasten flange through flange with  41  ½″ #8 screws, 1 screw each top and bottom flange on each side. Four screws are required. 
     To vertical  72  cripple studs install  44  top plate track, 3′7″ in length. Again, cope both ends 3½″ inward on each end and bend downward on both ends. Erect and install over cripple studs, flange turned down. Secure coped web to sides of  36  double studs using two (2)  64  1¾″ #8 screws, measured 1½″ apart, using 2 screws for each web and each end. There are four (4) screws are required. 
     We are now going to secure coped flanges to sides of  36  double studs and both sides using  64  1¾″ #8 screws, measured 1″ apart; two (2) screws for each flange and for each side. Fasten to  72  cripple studs, with  31  ¾″ #10 screws, flange through flange, put screws in center where the flanges connect. There are two (2) screws to each side. A total of four (4) screws are required for top and bottom on both sides. Now, install  112  over face of door header, secure with ½″ #8 pan head screws, 3½″ inward from each end, space screws every 18″. Three screws are required at top and bottom sides. Both sides are identical. 
     FIG. 5 a  Provides described elements for installation of  71  Door Header, as follows: cut two lengths of  34  stud, 3′7″ in length. Cope each end of each  34  stud, 3′½″, cut off and discard flange pieces from each end. There will be a 3′½″ web extension on each end, with each length being turned on its flange side and aligned with  44  top plate track edge. Flanges are facing inward. Each side is identical. Thiscreates the  71  Door Header. Secure this in place to  44  top plate track with  64  1¾″ #8 screws. Now, screw these through  44  top plate track web, and up through flanges of  71  Door Header, measuring on each side is 12″ apart to put screws. Other side is identical. To top of this entire wall assembly, raise and install over tops of all  36  double studs,  44  top plate track. This track is manufactured coped on one side. Install this coped flange toward inside of chamber, flange will overlap at wall  44  top plate track intersection. Fasten,  44  top plate track to  36  double studs and down through overlapping,  44  top plate track, with 37¾″ #8 screws. Measure 1″ apart, put screws through flange and web to studs, and measure 1″ apart on over lapped track, put screws through track connection. A total of twelve (12) screws are required. 
     Now, standing inside of Lobby Banking Financial Security Chamber, look out through 14″ opening and install  48  1¼″ window casing; with a measurement of 14″ in length, butt to outer flange  44  top plate track. Secure  48  1¼″ window casing by screwing down through web of  44  top plate track into  48  1¼″ window casing. Use  37  ¾″ #8 screws, measure 6″ each way from center on window casing; with a measurement of 14″ in length, butt to outer flange  44  top plate track. Secure  38  1¼″ window casing by screwing down through web of  44  top plate track into  48  1¼″ window casing. Use  37  ¾″ #8 screws, measure 6″ each way from center on window casing, two (2) screws are required; to  28  bottom plate track. Butt  48  1¼″ window casing to outer flange and secure through casing to  28  bottom plate track using  64  1¾″ #8 screws, measure 6″ each way on center of casing, put two (2) screws on each side. Total of two (2) screws are required. Install side pieces of  48  1¼″ window casing 6′5½″ in length. Butt between top and bottom casing, apply  63  epoxy sealer to front side and secure to  36  double studs on each side. Fasten  64  1¾″ #8 screws, measure 16″ both ways from center. Four (4) screws are required to fasten. Install 14″×1″×6′ 8½″  45  Paltech panel. Insert  46  ¼″ vinyl wedge gasket, and install to  44  top plate track and  28  bottom plate track 14″ in length of  48  window casing. Fasten down through  44  top plate track with  37  ¾″ #8 screws, measure from center 6″ each way, and two (2) screws are required. Coat side that touches panel with  63  epoxy sealer and install  46  ¼ vinyl wedge gasket between panel and  48  1¼″ window casing edge. To  28  bottom plate track install 14″ length  48  1¼″ window casing and coat side that touches panel with  63  epoxy sealer. Fasten using  66  1¾″ #10 screws, and measure 6″ both ways from center. Two (2) screws are required. 
     Insert  46  ¼″ vinyl wedge gasket between panel and  48  1¼″ window casing edge. Between top and bottom horizontal  48  1¼″ window casing install a measured 6′5½″ vertical  48  1¼″ window casing, after coating sides that touch  45  1″ Paltech panel with  63  epoxy sealer, fasten to  36  double studs with  66  1¾″ #10 screws, and measure 16″ from both ways from the center. Fasten with a total of 4 screws. Insert  46  ¼″ vinyl gasket. Other side is identical. 
     Having addressed the structural elements/components and inter-connections of FIG.  5  and FIG. 5 a . I now focus on FIG. 5B,  74  entrance doors. 
     FIG. 5B Describes elements of  74  entrance doors. These doors are installed in a set back sliding track, top and bottom. This horizontal track is set flush to inside edges of  73  door jamb.  74  entrance doors consist of two equals panels which are measured 18″×1″×6′9″ when closed they are 36″×6′9″. These panels are manufactured pre-framed and adaptable to conventional sliding track. These doors are constructed polymers of  45  1″ Paltech high-impact resistant advanced polymers, which is a combined strength of polycarbonate and security film, laminated in layers. This provides a level-4 bullet and bomb resistance; is mirrored on outside, providing complete confidentiality and security for all transactions. 
     Having completed  12 ,  111  Height Measurement Strip is adhesively secured on inside frame of entrance doors of Lobby Banking Security Chambers and the frames closest to lobby banking transaction teller. These  111  Height Measurement Strips are complimentary blended colors to total interior decor. 
     FIG. 6 Provides detailed elements of Containment Room. For this configuration, we must start from teller wall base of inside Lobby Banking Financial Security Chamber Teller Wall. Locate, by measuring for center of teller chamber wall. Teller wall base is  38  ½″ from top counter to floor, measure 2′ on each side of center line (mark these locations). Now, measure in a vertical direction, toward inside of chamber for 1′ and mark this on both previously location 2′ measurement lines. We are going to continue on these lines, and measure 5′. Connect these lines in a horizontal direction. The end result is a 4′×5′ rectangle. Measuring 1′ from bottom of teller wall, this rectangle configuration will be cut out all the way through to the basement. Clean all debris. 
     FIG. 6 a  Having completed all of the above, we are now going to install  60  Steel Drop Door. Desired carpet, complimenting bank decor, will be measured and cut to fit steel drop door panels. This pre-cut measured carpet panels will then be adhesively secured to steel drop door panels prior to steel drop door installation. This steel drop door is manufactured pre-framed and consist of (2) 2′×5′ with removable pre-hinged panels, hinges are to the underneath sides. Frame is pre-drilled for required concrete fasteners, which are necessary to secure frame in place. For 5′ side, measure 1″ indention on both ends, with remaining holes measured 14½″ apart, and both sides are identical,  75  powder driven fasteners; eight (8) are required for each side. For 4′ frame sides, there will be a 1″ indention on both ends. Remaining holes are measured to be 11½″ apart, and both sides are identical, eight (8)  75  powder driven fasteners are required. Understanding variables of floor thickness; it is best to use two (2) rows of fasteners on all sections of frame for this application. The floor is 6″ thick, rows will be measured 2″ inward from top and bottom of outside edge for all sides. Now, apply  63  epoxy sealer and  61  ½″ rubber gasket to all sides of frame, prior to installation of fasteners. These doors are electronically operated with electronic controlled instant self locking,  65  hydraulic scissors type hinges are installed from underneath and two (2) sets are on each side; located 1′6″ to the inside of 5′ panels. Remaining desired carpet shall be adhesivley secured to entire floor of Lobby Banking Financial Security Chamber after completion of chamber. 
     We are now in the basement; and standing looking up at the opening for  60  steel drop door of 4′×5′, measure 6″ to both sides of 4′ dimension strike line, creating a 5′ square on ceiling. Now, transfer this exact measurement to floor directly below for FIG. 6 containment room dimensions which are 5′×5′×6′ in this application. We have now constructed the perimeter top and bottom of FIG. 6 containment room. It is noted, basement height may vary according to an existing banking facility structure. 
     Install to ceiling, on both horizontal lines, one (1) section of  44  top plate track 5′ in length, pre-cope flange on each end, and on one side only, measure 3½″ bend flange where it is level with  44  top plate track web. Pre-drill track to accept fasteners. Locate center of web at 1¾″ strike a line, end to end and-along this line, measure inward 2″ from each end mark. Remaining hole locations are 14½″ apart. Install  44  top plate track flange side painting toward floor and coped end turned toward floor and coped end turned toward center of FIG. 6 containment room. Fasten with  75  powder driver fasteners. Four (4) fasteners are required for this. 
     Now, install two (2) vertical lengths of  44  top plate track 5′7″ to already installed 5″ lengths. Pre-cope flange on each end and one side only, 3½″ bend flange where it is level with  44  top plate track web. Pre-drill track to accept fasteners. Locate center of web, measure 1¾″, strike a line end to end. Along this line, measure inward 3″ from each end and mark. Remaining holes locations are 14½″ apart. Install these  44  top plate tracks with flange side pointing to floor and coped end turned toward center of FIG. 6 containment room. Insert coped ends of vertical  44  top plate track into previously installed horizontal  44  top plate track coped ends. These coped ends will lay inside and on  44  top of one another. Secure and fasten with powder driven fasteners. 
     Element  28  bottom plate track installation for FIG. 6 containment room is mirror image of  44  top plate track installation; with one exception being, on in one vertical 5′7″ wall length, this  28  bottom plate track will be in two (2) sections, and each being 17½″. 3½″ is to be inserted into horizontal  28  bottom plate track coped end, leaving a wall length of 14″ and both ends of wall are the same. Measure 3″ inward from coped intersections; secure with fasteners and measure 1″ inward from opposite end of 14″ section. This provides a 32″ opening for  82  steel door installation. It should be noted to face all coped flanges toward inside of room. 
     Elements to all corners, where  44  top plate track and  28  bottom plate track mate. Install  36  double studs measured 6′ in length. Fasten through flange into  36  double studs with  37  ¾″ #8 screws, two (2) screws are required and measurement are equal distance apart. Install these fasteners on all locations where  36  double studs connects with flanges. Thirty-two (32) fasteners are required. Now, install  36  double studs to ends of 14″ vertical wall lengths. Fasten using  37  ¾″ #8 screws, measuring equal distance apart, eight (8) screws per double stud installation for top and bottom. 
     Once again, we are standing inside FIG. 6 containment room, looking out through wall opening. We will now install to all  36  double studs and between  44  top plate track and  28  bottom plate track  79  L 2 ″×2″×¼″×5′11½″ angles, secure to  44  top plate track and  28  bottom plate track, through flanges with  41  ½″ #8 screws and two (2) screws are required. Fasten to  36  double studs  79  L 2 ″×2″×2″×¼″ with 4′×11½″  41  ½″ #8 screws. Measure inward from each end 1¾″ and remaining screws are 17″ apart. There are five (5) screws are required for this. 
     Now, apply  78  industrial adhesive to  44  top plate track and  38  bottom plate track flanges and to  79  L 2 ″ angles. Place  45  1″ Paltech Panels of 4′11½″×1×5′11½″ inside wall openings. Press in place to flanges and  79  L 2 ″ angles. Secure in place with  80  L 1 ″ angle to flanges. Measure inward from each end 1¾″. Then measure 28″ each way toward center. Use three (3)  79  L 2 ″×2″×¼″×2″ and three (3) are required. Fit  80  L 1 ″ angles tight against panels and fasten to  44  top plate track and  28  bottom plate track webs with  41  ½″ #8 screws. There are two (2) screws to one leg of each angle. Twelve (12) screws are required for top and bottom. Two (2) sides, which are 5′11½″ long, fasten to  36  double stud with  80  L 1 ″×2″×¼″×2″. Measure 2½″ inward from each side and remaining locations are 22″ apart. Again, fit four (4)  80  L 1 ″ 0  tight against panels. Use  31  ¾″ #10 screws and put two (2) screws to one leg of each angle. A total of eight (8) screws are required to both sides. 
     The 14″×1″×15′×11½″ panel installation is identical with exception of  80  L 1 ″ locations. Exceptions are as followings: Measure 2″ inward from each end. Two (2)  80  L 1 ″ top and bottom. Side locations are measured  2  ½″ inward from each end. Remaining locations are 22″ apart. 
     Elements for installing  82  steel door is as following: to inside web of 32″ length of  44  top plate track; install a 32″ length of  34  stud 3½″ and fasten with  41  ½″ #8 screws through flanges on each side. Now, measure 2″ inward from each end and 14″ apart. Three (3) screws are required for each side. Install pre-hung  82  steel door, measuring 2′8″×2″×5′11″ and secure frame to  44  top plate track with  37  ¾″ #8 screws, measure 2″ inward from each end and 14″ apart. Three (3) screws are required. Fasten sides to  36  double stud. Measure 2½″ inward from each end. Remaining screws are 22″ apart. A total of four (4) screws are required. Other side is identical.  82  steel door has an  83  observation window of  45  1″ Paltech is centered in door, from top of door, measure a distance of 1′ down and center for 2×1″×2′,  83  observation window has 1′ square access section; which can only be opened from outside, and to the outside. This access window has electronic magnetic locking system. 
     FIG. 6 b  Now, returning to inside containment room. The ceiling, entire wall, entire floor, and entire side of door, facing room is secured with industrial adhesive  77  8″ of urethane padding with fire retardent cover; affixed to inside, to inside top of wall next to  83  steel door on both side is an  67  institutional steel case enclosed light fixture  88  double pole switch. 
     FIG. 7 To existing  84  breaker panel, install 5  85  20 amp breakers. Connect to each breaker  86  #12-20, Romax cable. Run cables from  84  breaker panel and install  87 . Step down transformers to each, 2′ from breaker panel. Continue cable run to  54  electrical master control console, located behind “Lobby Banking Financial Security Chamber” teller wall as illustrated in FIG.  5 .  3 , 7 . 
     Standing behind FIG. 3, teller wall in front of teller window, facing chamber to the right hand side, install  88  single pole switch with receptacle to  36  double stud. Connect  86  No. 12-26, Romax cable to  88  single pole switch continue to run to top of  36  double stud and install to  90  junction box with cover, on top of  44  top plate track. Connect with  68  leaner track lighting system and  58  security chamber lens tracking system. Continue to run  86  NO. 12-26 Romax cable to  90  junction box located at the intersection of the center  39  horizontal interlocking beam and  44  top plate track. Run  89  branch circuit an connect to previously installed  70  fire sprinkler with water supplied from existing system. 
     Returning to teller window illustrated in FIG. 3, secure height adjustable, side leg brackets of  54  electrical master console to floor directly in front of teller window, using  75  powder driven fasteners 2 to each leg bracket,  54  electrical master control console mounts between brackets and can be rotated stopped and secure in place from a horizontal position to 45°. The 45° angle requires a minimum amount of foot motion necessary to activate this maximum security, invention. 
     Remove cover of  54  electrical master control console, exposing four  92  oxtogonal elect box&#39;s secured together with  41  ½″ #8 low profile pan head screws to each box, eight (8) are required. The knockouts on  54  electrical master control console and  92  octagonal electrical boxes are aligned. Starting at the right hand end of  54  electrical master control console, run  86  cable  1 -A- 1 , to  92  electrical box and connect to  93  SM/C with relay. This push bottom black switch No.  1  . Next, run  86  cable  1 -A- 3  to  93  SM/C momentary contact switch No.  3  Red, moving to your left, to the next  92  electrical box, run  86  cable  2 - 3 - 1 , connect to  93  SM/C with relay; this is a push bottom green switch No. 2. Run  86  cable  2 -b- 2  to  66  steel drop doors and lock actuators. Run  89  branch circuit  2 -B- 3  to basement and install  67  institutional steel cased includes light fixture mounted to inside wall of FIG. 6, containment room. Run  2 -B- 3  to outside wall and install  88  single pole switch. Continue to run  86  cable  2 -B- 4  out of  92  electrical box and connect into  86  cable  1 -A- 3 . 
     Moving to the next  92  electrical box, run  86  cable  3 -C- 1  and connect to  93  SM/C with relay; this is push bottom red alarm switch no. 3 . Connect  86  cable  1 -A- 3  and  86  cable  4 -D- 4  to  86  cable  3 -C- 3  and connect  86  cable  3 -C- 2  to alarm system. 
     Moving to the  92  electrical box, run  86  cable  4 -D- 1  and connect to  93  SM/C with relay, this push button white switch no. 4 . Now, run  86  cable  4 -D- 1  and connect to  86  cable  4 -D- 2 . Run this cable up and along  44  top plate track to  74  entrance doors and lock actuators. Run  86  cable  4 -D- 3  to  56  pepper gas spray head&#39;s. Connect  86  cable  4 -D- 4  to  86  cable  4 -D- 3  components are conventional, and are interconnected to the bank&#39;s emergency standby electrical power source. 
     FIG. 8 A loop air distribution system will be used to heat and cool both overview of Lobby Banking Financial Security Transaction chamber&#39;s and FIG. 6 containment room. 
     The  96  supply duct loop, will be secured to basement ceilings and will run the perimeter of the overview. Pre-cut  4  openings in chamber floor to accept  94  register. Now, measure in from inside walls 5′. Measure in vertical direction 4′ and 9′ along one wall, mark these locations. On opposite wall, measure 2′6″ and 7′2″, mark locations. Measure 6″ on either side of these marks. From this line measure 4″ horizontal and strike another vertical line. This will create opening for  94  register. These offset  94  registers will provide a more even air distribution. The are four (4)  94  registers. 
     In basement install  96  supply duct loop to ceiling using  95  Aluminum Brackets every 1′6″ from each corner and one at 8′ on both sides. This duct work is conventional square and insulated from manufacture, with  97  riser&#39;s to  94  registers installed. Fasten with  75  powder driven fasteners, as required. On the back wall of FIG. 6, cut openings for  94  register and install. This  94  register is located 1′ down from top of FIG. 6 and 1′6″ inward from of left side. Cut openings and install register seal with  21  epoxy resin. Continue to the bottom of this wall, measure up 1′ from bottom and 2′ in from left corner edge. Cut openings and install  94  registers, seal with  21  epoxy resin. Continue with this  96  duct loop to  98  air filtration unit and connect  98  air filtration unit is conventional and is installed to the left side of FIG. 6 containment room and is connected to existing unit. Air from existing unit comes in through  98  air filtration unit circulates through overview of chamber and FIG. 6 containment room returns to  98  air filtration unit is cleaned and recirculated Electrical Power is connected to existing power source. All components are conventional. 
     FIG. 9 Teller drive through window is based on existing bank teller drive through window, which is part of main bank building. Teller window being housed within main building. 
     Remove all existing glass and frame work. Install  44  top plate track flange turned up and bottom plate track flange turned down. Each begin 8′8″ in length, fasten through web to window header and sill using  37  ¾″ #8 LPPH, screws. Measure inward from each end 4″ and mark. Then measure and mark every 25″. There will be six (6) screws needed for each track. Cut and install to the sides of window frame 2 lengths of  34  stud 2′7½″. Butt between  44  and  28  bottom plate track secure through web to wall sides. Using  37  ¾″ #8 LPPH, measure 2″ inward from each end of each length, then measure and mark every 9″ and six (6) screws are needed for each side. 
     Standing on the inside of FIG. 9, looking out through window, install to the outside edge of  44  top plate track  79  L 2 ″×2″×¼″×8′7½″. Turn inside of angle facing to the inside of window, fasten with  41  ½″ #8 LPPH screws. This 8′7½″ length will be cut and install in three (3) sections, two (2) sections will be 2′8″ and one (1) section will be 24″ in length. Screw spacing on 2′8″ length is: 2¼″ inward from each end; then measure 17″, there are three (3) screws required for each length. For the 24″ length, measure 2″ in from each end, then measure 10″; three (3) screws are required. Installation to  28  bottom plate track is identical. 
     We will now install to sides install  79  L 2 ″×2″×¼″×2′7″ one length for each side 2′7″ long, turn angle to inside of window. On each 2″ leg, on both lengths, cut and remove a 2″ length. This is to allow side sections to mate with top and bottom 79 angles. Fasten to sides with  31  ¾″ #10 LPPH screws. Measure in from each end 2″ then measure 9″ apart; four (4) screws are required, for each side. 
     Now, install factory fabricated and framed sheet of  45  1″ Peltech. This sheet is 8′7″×2′7″; 3′2½″ inward from each end of this panel, we will find 2 vertical panels pre-framed  45  1″ Peltech panels 16″×1″×2′7″. These have been sandwiched between the horizontal panel. These panels are hinged which allows them to be closed and secured. They will rest on  108  which is the outside window counter. Apply  63  epoxy sealer to all edges of panel and lift in place, sliding  45  1″ panels through 1¼″ openings that were left open when  79  L 2 ″×2″×¼×8′7½″ was installed to  44  top plate track and  28  bottom plate track. Press and secure this panel to  79  with  100  1¼″ #10 LPPH head screws. Top and bottom of panel screw spacing are 2″ inward from each end toward center. Remaining screws are 11″ apart. Eleven (11) screws are required. Side screw spacing is 2½″ inward from each end toward center, remaining screws are 13″ apart; four (4) screws required. Install factory framed sliding  45  1″ Peltech panels. Butt frame to previously installed  45  1′ Peltech panel. Fasten frame top and bottom with  41  ½″ #8 LPPH, screw 2″ inward from each end toward center. Remaining screws are 11″ apart. Eleven (11) screws each are required top and bottom. Install to each side measure, 2″ inward from each end toward center remaining screws are 9″ apart. Five (5) screws are required on each side. 
       58  Pepper gas spray heads are mounted inside  108  Hollan Stainless Steel window counter and are set at 45 angles toward customer&#39;s face. Also mounted inside the counter will be a  102  customer phone which raises for use when button is pressed and retracts when not in use.  110  teller drawer phone and  56  pepper gas spray heads have sliding automatic steel covers which secures them when bank is closed. To the top of the inside window, will be a  58  security camera lens security track system installed facing the walk up window, and teller drive through module with the FIG. 9 drive through banking system. 
     Inside FIG. 9 Teller drive through banking window, to the underneath edge of the teller counter, there are two (2)  93  momentary contact switches black push button open or close window, the red one closes window, activates alarm and pepper spray. This enable the teller to protect themselves and the bank, sound the alarm and  56  pepper spray and a would be assailant. These are wired into the existing electrical system. 
     The  103  communication console is located in the FIG. 9 teller driver through window area, directly beneath the customer service window. The  103  communication console, base is equipped with pa-lamps that correspond to each alpha-numeric coded drive through lane. 
     When customer activates  104  receiver  103  lights indicating, drive throughout lane. All teller&#39;s will wear  101  when communications are completed and  104  is replaced privacy communication channel automatically closes. The  104  receiver and  101  head set communication create a privacy system, that cannot be overhear by the public. All drive through will be connected to  105  with  105  CATV-V cable to prevent cross talk. 
     FIG.  9 A and FIG. 10 Teller drive-through module built in the existing communication will be removed and replaced  104  by touch tone phone, receiver will be mounted next to each depository in each  9 A teller drive-through module. Each  104  touch tone receiver is connected to  103  communication console, located in the FIG. 9 area and has it&#39;s own alpha numeric code. Customer picks up  104  touch tone phone receiver, hears dial tone, dials in proper alpha numeric numbers, console lights up, teller communicates, customer communicates, customer hangs up breaking connection. Teller can contact customer by activating a ringing tone to that  104  touch tone phone receiver,  105  communication console is used to prevent cross talk and is wired to existing electrical system,  104  each teller drive-through module is identical. 
     As shown in FIG. 10 particular references are enhanced showing security for bank teller. Closed circuit control of all verbal conversation between customer and bank teller with financial transactions.