Patent Publication Number: US-2022234843-A1

Title: Personal Delivery Mail System

Description:
CROSS-REFERENCE TO RELATED APPLICATION 
     The present application claims priority to, and the benefit of, U.S. Provisional Application No. 63/142,159, which was filed on Jan. 27, 2021 and is incorporated herein by reference in its entirety. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates generally to the field of personal communication delivery systems. More specifically, the present invention relates to a mail or other parcel delivery system featuring a pneumatic tube system that is designed to deliver packages, other parcels, communications and envelopes directly into the home, residence, office or other delivery location. More specifically, the system has a collection receptacle such as mailbox installed outside a house and a receiving box, area or slot inside the receiving location. The pneumatic tube system is powered by a compressor that propels a courier canister or tube that holds mail, parcels and other communications between the receiving receptacle and receiving slot, box or area. The system also has a scanner or reader positioned near the front door of the house for a courier to scan a bar code on a package or reader to read an RFID tag and also a tablet that enables the homeowner or other intended recipient to receive real-time notifications of mail, deliveries and packages in the receiving receptacle or mailbox and at the scanner or reader. Accordingly, the present disclosure makes specific reference thereto. Nonetheless, it is to be appreciated that aspects of the present invention are also equally applicable to other like applications, devices and methods of manufacture. 
     BACKGROUND 
     By the way of background, in the field of postal, courier, other delivery services and conventional postal offerings, receptacles such as mailboxes are well-known in art. Conventional delivery boxes such as mailboxes, typically have a round-shaped container with a locking mechanism for receiving the mail or packages. Other shapes are of course available, as long as they meet general specifications and requirements of the delivery service or local ordinances. Mailboxes and other delivery receptacles remain susceptible to thefts and other intrusions, as the delivery receptacle is typically positioned in a publicly available area, such as near a street to enable easy access by the delivery personnel. Further, to identify if any mail or packages have been received, individuals or homeowners often have to make multiple trips to their mailbox and check the receptacle manually to see if a delivery has been made. As the mailboxes are installed in the yard or curbside, the owner or user of the box or receptacle is required to travel a distance which can be long, due to long driveways or in the case of rural routes or neighborhoods that limit the location of boxes, the box may be located with a plurality of others at the entrance to the neighborhood or other specified area. This is time-consuming, discomforting and tiring for users. The long walk to the mailbox can be annoying particularly if made multiple times in a day to collect multiple deliveries. Also, elderly individuals and those with limited physical dexterity may struggle visiting their mailbox constantly each day. Current mailboxes, delivery receptacles and mailing systems do not provide an adequate way for viewing inside of the mailbox or determining if a package has been received without travelling to the mailboxes or receptacle. 
     Similarly, when the homeowners, user or residents want to send mail, packages or envelopes, the owner or user must walk to put the mail or package in the mailbox or receptacle and raise the flag on the side of the mailbox to alert the mail person that mail is to be picked up. People therefore desire a way to allow them to put the mail and other parcels in the mailbox without going to the delivery receptacle. 
     Also, there is no mail delivery system existing in the prior art that enables users to deliver packages and envelopes directly into the home and simultaneously receive alerts that notify a user about the status of the mail and packages and whether the anticipated delivery has occurred. Further, there is no mail delivery system that includes a scanner or reader next to the house door that allows the delivery person to scan packages or read tags and alert the courier of correct or incorrect addresses. 
     Therefore, there exists a long felt need in the art for a mail delivery system that can deliver packages, parcels, other communications and envelopes directly into the home or other location of the recipient. There exists a long felt need in the art for a mail delivery system and delivery receptacle that prevent people from constantly going out, looking for deliveries and retrieving mail from the mailbox. Additionally, there is a long felt need in the art for a mail delivery system which eliminates the need to travel or make long walks up driveways to the mailbox or delivery receptacle. Moreover, there is a long felt need in the art for a mailbox or delivery receptacle that notifies and alerts residents or users of the receptacle about the status of their mail or packages. Further, there is a long felt need in the art for a mail delivery system that allows homeowners to put mail and other items in the mailbox from inside the home. Furthermore, there is a long felt need in the art for a mailbox or delivery receptacle that allows homeowners to change the status of the flag or other alert indicator of the mailbox or delivery receptacle. Finally, there is a long felt need in the art for an improved mail delivery system that allows user to monitor their mailbox or delivery receptacle from inside the home and enables user to directly receive and send mail, parcels, other communications and packages directly from the home, office or other location where the user may be located. 
     The subject matter disclosed and claimed herein, in one embodiment thereof, comprises a pneumatic mail and package delivery system. The system features a delivery receptacle installed outside of a home, office or other location, and a receiving slot disposed inside of the receiving location. The delivery receptacle or mailbox and the receiving slot are connected to each other through a pneumatic tube with the delivery receptacle at one end and the receiving slot at the other end. The system uses a courier shuttle or canister that is sized and configured to fit inside a cavity of the delivery receptacle or mailbox and for receiving and storing at least one item such as mail, a parcel or envelope. A compressor provides a pneumatic effect in the tube, and serves to provide a constant pressure to keep the tube inflated and for pushing the canister through the pneumatic tube from the mailbox to the receiving slot while carrying the mail or parcels to the inside of the home and vice versa to carry a mail from inside of the home to the mailbox or delivery receptacle. A scanner or reader is positioned near the front door of the home, and is configured for scanning a package or reading a tag such as an RFID tag by a delivery personnel. A tablet receives notification when mail or other items are placed in a courier canister and when a package is scanned or read at the scanner or reader. 
     In this manner, the novel delivery system of the present invention accomplishes all of the forgoing objectives and provides a relatively convenient and efficient solution which eliminates the need for an individual to constantly go out and retrieve and send mail or other delivered items from a mailbox or delivery receptacle each day. The delivery system of the present invention provides a solution which eliminates the need for elderly individuals and those with limited physical dexterity to have to visit their mailbox and check for the mail received. The delivery system of the present invention continuously alerts the user concerning the real-time status of the mailbox or delivery receptacle to the individual at the delivery location such as the home or office. 
     SUMMARY OF THE INVENTION 
     The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed innovation. This summary is not an extensive overview, and it is not intended to identify key or critical elements or to delineate the scope thereof. Its sole purpose is to present some general concepts in a simplified form as a prelude to the more detailed description that is presented later. 
     The subject matter disclosed and claimed herein, in one embodiment thereof, comprises a personal pneumatic mail and package delivery system. The system is designed to deliver packages and envelopes directly into homes of residents or other locations where users of the system are present. The system further includes a pneumatic mailbox installed outside of a home or other location of a user, and a receiving slot disposed inside of the home or user location. The pneumatic system connects a delivery receptacle such as a mailbox, to the receiving slot through a pneumatic tube. The tube includes at least one canister sized and configured to fit within a cavity of the mailbox and pneumatic tube and for receiving and storing at least one piece of mail, envelope, or parcel, a compressor for providing a pneumatic effect in the tube for pushing the canister from the mailbox to the receiving slot for carrying the mail inside of the home and vice versa. A reversible pushing force is used to carry mail from inside of the home or user location to the mailbox or delivery receptacle. A scanner or reader is positioned near the front door of the home or user location, and configured for scanning or reading a package by a delivery personnel. A tablet is provided for receiving notification when mail is placed in a courier canister while the canister is placed inside the delivery receptacle or mailbox. When a package or piece of mail is scanned or read at the scanner or reader, a control button is pushed on the tablet to provide an instruction to the compressor for pushing the canister from the delivery receptacle or mailbox to the receiving slot, thus enabling the resident or other user to receive the mail, parcel or envelops inside the home or other user location. An instruction is provided on the tablet to instruct the compressor to push a canister from the receiving slot to the mailbox for sending outgoing mail or other items. 
     In yet another embodiment of the present invention, a pneumatic mailbox configured to work with a pneumatic tube is disclosed. The mailbox is positioned outside a house or other user location and is communicatively-coupled with a receiving slot that is positioned inside the house. The mailbox and receiving slot are connect to one another by a pneumatic tube that works as a conduit between the receiving slot and the delivery location. The mailbox or delivery location includes a cavity for receiving a courier canister that houses one or more incoming items. A lockbox is provided that includes an emergency canister and the emergency canister is configured to be used when the cavity is not operable, so that delivered items are held safely until they can be retrieved. A processor is configured to transmit a notification to a tablet and a small light is positioned inside the house, thereby alerting the user that the courier canister stores at least one incoming item. The pneumatic mailbox along with the pneumatic tube is configured to send the courier canister having the incoming envelope or mail to the receiving slot through the tube and is also configured to receive the courier canister having the outgoing mail or envelope from the receiving slot. 
     In yet another embodiment of the present invention, the mailbox has a sensor for detecting mail or other items present in the mailbox. Further, the processor transmits a notification to the tablet when the sensor detects the item in the delivery receptacle. 
     The subject matter disclosed and claimed herein, in one embodiment thereof, comprises a mail delivery system which is designed to deliver packages and envelopes directly into the home or other user location. The mail delivery system has a pneumatic tube system which is powered by a compressor to propel a courier canister or shuttle that stores the items to be delivered to and from the mailbox and the user&#39;s location. The mail delivery system also includes a scanner or reader that enables the courier service to scan the delivery item once they deliver a package and alert the courier services of correct or incorrect address(es). The system is integrated with a sensor on the interior of the delivery receptacle or mailbox that senses when an object is inside of the mailbox and activates a small light to turn on inside of the home or user location to alert the resident or user that they have received an item. The system utilizes a tablet or other remote control to adjust the direction of the canister and view delivery information. 
     In yet another embodiment of the present invention, a personal mail and package delivery system is disclosed. The system uses a tablet for providing instructions to a delivery location, such as a mailbox and for receiving notifications from a scanner concerning the status of an item to be delivered and a receiving slot. The tablet is configured to receive a notification from the scanner when a package is scanned and delivered at the delivery receptacle. Further, the tablet is configured to receive a notification when a piece of mail, parcel or other item(s) is located inside of the mailbox, and a flag position indicator that is located on mailbox to indicate whether the flag is in the up or down position. The tablet is also used for instructing a compressor to provide a pushing force from the mailbox to the receiving slot when mail is placed inside the mailbox and for providing a pushing force from the receiving slot to the mailbox when there is outgoing mail positioned in the receiving slot. The mail is stored or placed within a courier canister and the canister is pushed by the compressor along a pneumatic tube which connects the mailbox and the receiving slot. 
     To the accomplishment of the foregoing and related ends, certain illustrative aspects of the disclosed innovation are described herein in connection with the following description and the annexed drawings. These aspects are indicative, however, of but a few of the various ways in which the principles disclosed herein can be employed and are intended to include all such aspects and their equivalents. Other advantages and novel features will become apparent from the following detailed description when considered in conjunction with the drawings. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The description refers to provided drawings in which similar reference characters refer to similar parts throughout the different views, and in which: 
         FIG. 1A  illustrates a perspective view of one potential embodiment of a pneumatic mail delivery system of the present invention in accordance with the disclosed architecture; 
         FIG. 1B  illustrates a front view of one potential embodiment of a pneumatic mail delivery system of the present invention in accordance with the disclosed architecture; 
         FIG. 2A  illustrates one potential embodiment of the courier canister or shuttle used for carrying mail or other items from the mailbox or delivery point to the receiving slot, and vice versa in accordance with the disclosed architecture; 
         FIG. 2B  illustrates another potential embodiment of the courier canister or shuttle used for carrying mail or other items from the mailbox or delivery point to the receiving slot and vice versa in accordance with the disclosed architecture; 
         FIG. 3  illustrates a block diagram showing the exemplary components and sensors of one potential embodiment of a pneumatic mail delivery system of the present invention in accordance with the disclosed architecture; 
         FIG. 4  illustrates a perspective view of one potential embodiment of the scanner in use by a delivery person for scanning a package in accordance with the disclosed architecture; 
         FIG. 5  illustrates a schematic view of the communication between the receiving slot, mailbox and scanner with the tablet for providing necessary notifications and also enabling a resident or user to control the pneumatic mail delivery system of the present invention in accordance with the disclosed structure; and 
         FIG. 6  illustrates a flow diagram showing the exemplary steps of using one potential embodiment of the pneumatic mail delivery system of the present invention for receiving mail and other items inside a home or business in accordance with the disclosed specification. 
     
    
    
     DETAILED DESCRIPTION OF THE PRESENT INVENTION 
     The innovation is now described with reference to the drawings, wherein like reference numerals are used to refer to like elements throughout. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding thereof. It may be evident, however, that the innovation can be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to facilitate a description thereof. Various embodiments are discussed hereinafter. It should be noted that the figures are described only to facilitate the description of the embodiments. They are not intended as an exhaustive description of the invention and do not limit the scope of the invention. Additionally, an illustrated embodiment need not have all the aspects or advantages shown. Thus, in other embodiments, any of the features described herein from different embodiments may be combined. 
     As noted above, there is a long felt need in the art for a mail delivery system that can deliver packages and envelopes directly into the home or other user location. There exists a long felt need in the art for a delivery system and delivery receptacle that prevents people from constantly going out and retrieving items from the mailbox or delivery receptacle. Additionally, there is a long felt need in the art for a mail delivery system which eliminates the need to travel long distances to the mailbox or delivery location. Moreover, there is a long felt need in the art for a mailbox that notifies and alerts residents and other users about the status of their mail and other delivered items. Further, there is a long felt need in the art for a personal package delivery and notification system that allows homeowners and other users to put mail or other items in the mailbox or delivery receptacle from inside the home or user location. Furthermore, there is a long felt need in the art for a mailbox that allows homeowners or other users to change the status of the flag of the mailbox. Finally, there is a long felt need in the art for an improved mail delivery system that allows users to monitor their mailbox or delivery receptacle from the safety of their home and enables user to directly receive and send the mail and packages directly from the home or user location. 
     The present invention, in one exemplary embodiment, is a novel mailbox or delivery receptacle configured to work with a pneumatic tube is disclosed. The mailbox or delivery receptacle is positioned outside a house and is communicatively-coupled with a receiving slot positioned inside the housed or user location through the pneumatic tube that works as a conduit between the receiving slot and the mailbox. The mailbox includes a cavity for receiving a courier canister or shuttle that houses one or more incoming items, and a lockbox that includes an emergency canister. The emergency canister is configured to be used when the cavity is not operable. A processor is configured to transmit notification to a tablet, and a small light is positioned inside the house or user location that the courier canister or shuttle stores at least one incoming item. The mailbox along with the pneumatic tube is configured to send the courier canister or shuttle having the incoming item to the receiving slot through the tube, and is also configured to receive the courier canister or shuttle having the outgoing item from the receiving slot. 
     Referring initially to the drawings,  FIG. 1A  illustrates a perspective view of a pneumatic mail delivery system  100  and a pneumatic mailbox  102  of the present invention in accordance with the disclosed specification. The pneumatic mail delivery system  100  of the present invention is a comprehensive mail delivery system that is designed to deliver packages, items and envelopes directly into the home or user location without requiring people to constantly go out and retrieve items from the mailbox each day. More specifically, the mail delivery system  100  includes a pneumatic mailbox  102 , pneumatic tube system  104 , receiving slot  106 , compressor  108 , courier canister  110 , scanner  112  and a tablet  114 . The pneumatic mailbox  102  is connected to receiving slot  106  located inside a home  116  through the pneumatic tube system  104 . The pneumatic tube system  104  is powered by the compressor  108  that propels the courier canister  110  from the mailbox  102  to the receiving slot  106 . The delivery receptacle and receiving slot are disposed remotely from one another, such as for example the delivery receptacle is at the curb of a street and the receiving slot is in the door of a house. 
     The pneumatic tube system  104  may include a tube of any desired length, radius, material, connections, bends or the like for connecting and providing a conduit for the canister or shuttle  110  between the mailbox  102  installed in a yard  118  of the home or user location  116  to the receiving slot  106  inside of home or user location  116 . The pneumatic tube system  104  is sized and configured allowing the canister or shuttle  110  to move forth and back from the mailbox  102  and the receiving slot  106 , and may be covered with aluminum or stainless steel to assist with maintaining the pressure therein. The courier canister or shuttle  110  is configured to store items  120  that can be inserted into the canister  110  and retrieved from the canister  110 . The pneumatic tube system  104  specifically defines an interior space through which the carrier  110  is guided between the mailbox  102  and the receiving slot  106 . 
     The pneumatic mailbox or delivery receptacle  102  has a frame  122  that forms an inner cavity  124 . The mailbox  102  is installed using the pole  126  that can have an illuminated street number or house number  128  for easy identification of the mailbox  102 . The house number  128  is illuminated using a light source such as LED so that it can be visible in low light. The frame  122  of the mailbox  102  has a flag  130  that is also known as carrier signal flag and is commonly used by homeowners, other users and business owners to alert mail couriers about the presence of mail. The carrier flag  130  in an up or vertical state denotes that there is at least one outgoing piece of mail in the mailbox  102 . If the carrier flag  130  is down, then there is no outgoing mail inside the mailbox  102 . In the present invention, the status of the flag can be viewed on the tablet  114  located inside the home  116 . The tablet  114  is an integral part of the pneumatic mail delivery system  100  and is provided to a user when the system  100  is installed. The tablet  114  is a display device that has a software application and has various functions and features that can be used by home residents or other user to check the status of the mailbox as best described in  FIG. 5 . 
     The frame  122  also has a reflector  132  that is designed to protect the mailbox  102  from being hit by vehicles. When headlights of a passing vehicle hit the reflector  132 , the reflector  132  reflects the light allowing the vehicle driver to be aware of the installation of the mailbox  102 . The reflector may be made of prismatic or beaded materials such as those provided by Avery Dennison or  3 M and the materials can be applied by adhesive and in various shapes or forms. 
     The inner cavity  124  is integrated with a sensor such as a weight sensor  134  that senses when an item is inside the mailbox  102 . Alternatively, a camera (shown in  FIG. 3 ) is positioned inside the mailbox  102  and can capture the images of the delivered items  120 . When the weight sensor  134  or the camera senses or detects the presence of one or more items inside the mailbox  102 , then a small light  136  is turned ON inside the home  104  to alert the resident or user that they have received an item. There can be an audible or visual notification on the tablet  114  as well. The mailbox or delivery receptacle  102  has a lid or closure flap  138  that allows a user to lock or unlock the mailbox or delivery receptacle  102 . The mail or other courier such as a postman, delivery agent or courier delivery services such as USPS, FedEx etc., flips the lid or door  138  and inserts the items  120  inside the carrier  110 . 
       FIG. 1B  illustrates a front view of one potential embodiment of a pneumatic mail delivery system  100  of the present invention in accordance with the disclosed architecture. The mailbox or delivery receptacle  102  is also integrated with a lockbox  140  that can be used to place items when the carrier  110  is not present inside the mailbox or delivery receptacle  102 . The lockbox  140  has a secondary storage positioned below the cavity  124  that enables a delivery person to drop items through a mail slot  150  with a handle  152  in case the resident such as a homeowner or other user has not sent their carrier  110  back to the mailbox  102  through the pneumatic tube  104  from inside their home or other location. The lockbox  140  is integrated with the home lock  154  that enables the delivery person to lock or unlock the locking box  140  after placing the items inside the lockbox  140 . The lockbox  140  is also integrated with the master lock  156  that enables the user to lock the lockbox  140  automatically using the tablet  114  as shown in  FIG. 5 . 
     It should be noted that all the sensor and locks of the mailbox  102  are connected through one or more wired circuits within the mailbox  102 . The wired circuits are insulated and protected from water such as rain, melting snow and ice, sprinklers and the like. The mailbox  102  also has wireless communication capabilities that allow a resident to operate and see notifications of the mailbox  102  on the tablet  114 . 
     The scanner or reader  112  is positioned outside  1160  of home  116 , and preferably near the door  142 . The scanner or reader  112  is used by a courier or delivery person for scanning one of many packages. The scanner or reader  112  sends a notification to the tablet  114  for notifying a resident or user of a delivery service. Details of the process of scanning is best described in  FIG. 4 . 
       FIG. 2A  illustrates a perspective view of an exemplary courier canister or shuttle  110  used for carrying items from the mailbox  102  to the receiving slot  106  and vice versa in accordance with the disclosed specification. The canister, carrier or shuttle  110  used in the pneumatic mail delivery system  100  of the present invention is in the form of a cylindrical container and is designed to store specific objects such as mail, envelopes, parcels, other delivery items or combinations thereof. The carrier or shuttle  110  is propelled/pushed through the pneumatic tubing system from the mailbox  102  to the receiving slot  106  and vice versa or via a reversible pushing force, via the compressor that creates suction or pressure. The carrier or shuttle  110  travels at a speed ranging from 20 to 50 mph with about 35 mph being preferred and depending on the pressure in the tube. The carrier  110  generally has two openings: a front opening  202  and a rear opening  204 . The openings  202 ,  204  are used for placing items and taking items out from the carrier or shuttle  110 . As an example, a mail courier can flip the front opening  202  for inserting the items inside the carrier  110 . The carrier  110  is also integrated with a slide opening  206  so that a resident or user can easily access the stored items. Users such as homeowners, or residents can lift the side opening  206  to access the items inside the carrier  110 . The carrier  110  can be made of plastic, such as for instance polyethylene, high-density polyethylene, metal or any other such type of materials. The carrier  110  can vary in size and can be replaceable. 
     When activated, the compressor  108  creates the appropriate air differential within the tube  104  to convey the carrier or shuttle  110 . A pushing force due to the compressor  108  causes the carrier  110  to be conveyed between the mailbox  102  and the receiving slot  106  at a speed between 20 and 50 mph. 
       FIG. 2B  illustrates a perspective view showing another embodiment of the courier canister used for carrying items from the mailbox  102  to the receiving slot  106  and vice versa, in accordance with the disclosed specification. The canister  208  of the present embodiment does not have a side opening, however the canister or shuttle has a front opening  210  and a rear opening  212 . The canister or shuttle  208  can be used as an emergency canister in case of any technical difficulties in the pneumatic system of the present invention and is used for manual operation both by a courier and a resident. The canister  208  can also be positioned underneath the mailbox for manual use and retrieval later by the user or resident. 
       FIG. 3  illustrates a block diagram showing exemplary components and sensors of the pneumatic mailbox or delivery receptacle  102  of the present invention in accordance with the disclosed specification. The outside mailbox  102  has an integrated camera  302  that is designed to continuously monitor the delivery receptacle for the benefit of the user or homeowner for deliveries or pickups. The camera  302  continuously monitors the mailbox  102  and records the user who is placing mail or packages inside the carrier of the mailbox  102 . Recording can also be transmitted to the tablet  114  for review of the resident or user. It should be appreciated that users and/or homeowners may receive real-time alerts of the mailbox  100 . The camera  302  of the mailbox  102  is useful to keep an eye on the deliveries and pickups which reduces the risk of theft. The sensor  134  is configured to detect mail or packages being inserted into carrier  110  inside the mailbox  102 . The sensor  134  is operatively-connected to the mailbox microprocessor  306  that generates real-time alerts or notifications. As stated earlier, when the sensor  134  detects items inside the carrier, it activates a small light inside of the home to alert the resident or user that they have received an item that requires retrieval, and the resident or individual using the tablet can adjust the direction of the carrier to receive the items inside of home at the receiving slot. The outside mailbox  102  is also integrated with a small outgoing indicator light  303 . The small outgoing indicator light  303  notifies a courier about outgoing mail positioned inside the mailbox  102 . 
     The mailbox  102  has a battery  304  that provides power to the components of the mailbox  102 . The outside mailbox  102  can also be integrated with a durable solar panel to absorb solar energy and convert the energy into electrical energy for keeping the battery  304  charged. A master lock  308  is configured to lock the mailbox  102  and deactivate the pneumatic system. A home lock  310  is used to lock and access the lock box and can be used in emergency systems manually. 
       FIG. 4  illustrates a perspective view showing the scanner  112  in use by a delivery person for scanning or reading a package in accordance with the disclosed specification. As shown in  FIG. 4 , the scanner  112  is placed next to the door  142  of the house or other user location  116 . The scanner  112  enables a courier delivery person  402  to scan a code, such as a bar code or QR code  406 , or read a tag, such as an RFID tag  406 , on a package  404  before delivery. The package  404  is integrated with a tag  406  such as a bar code, QR code or RFID tag that enables the delivery person  402  to scan the package  404  and identify whether the package  404  is delivered to the correct address. The delivery person  402  may only scan one of many packages addressed to the home  116 . On successful scanning, the scanner  112  transmits a notification to the tablet (shown in  FIG. 5 ) concerning the status of the delivered package and the courier company. The delivery person  402  can also take one or more pictures of the package  404  once delivered and can upload the image of the package at the delivery location onto the tablet for the resident or user to view. The scanner or reader  112  has an integrated indication light  408  that flashes in Red which indicates that the scanner  112  has power and can be used for scanning the package  404 . When the courier delivery person  402  scans the package  404 , the indication light  408  flashes in Green for a predetermined time, such as in the range of five to ten seconds, that indicates that the package is delivered to the right house and package has been confirmed. 
     The scanner  112  is configured to scan any type of tag such as a barcode, QR code, magnetic code, or RFID tag (UHF, RF, LF) and transmit the information to the tablet using a wireless communication channel such as Bluetooth, or any other short or long-range wireless communication channel. 
       FIG. 5  illustrates a schematic view showing communication of a receiving slot  106 , mailbox  102  and scanner  112 , with the tablet  114  for providing necessary notifications and also enabling a resident or user to control the pneumatic system  100  of the present invention in accordance with the disclosed disclosure. The tablet  114  is a display device that has an installed software application for enabling a resident or user to control and monitor the system  100  and its components from inside the house or other user location. The tablet  114  is similar to a tablet that may have a touch interface for providing control commands to the tablet. The tablet  114  provides a plurality of control options to the resident for controlling the mailbox or delivery receptacle  102  while providing notifications about the packages and other items received in the mailbox  102  and scanned by the scanner or reader  112 . 
     The tablet  114  is positioned inside of the home or user location and enables a resident or user to adjust and control the direction of the carrier, canister or shuttle, and view various types of delivery information. The tablet  114  has the installed software application downloaded  1140 . The tablet  114  provides an “IN” control button  502  that enables the resident or user to receive the carrier, canister or shuttle from the pneumatic mailbox or delivery receptacle  102  directly to the receiving slot  106  via the pneumatic tube system  104 . When the resident or user activates the “IN” soft button  502 , the carrier or shuttle  110  is propelled from the mailbox  102  to the receiving slot  106 . The compressor of the pneumatic system actuates a pushing force for the canister from the mailbox  102  to the receiving slot  106 . The tablet  114  also provides user with an “OUT” button  504  that enables users to push back the carrier or shuttle  110  for sending their outgoing mail or other items to the mailbox or delivery receptacle  102  from the inside of the home. In this case, the compressor of the pneumatic system actuates a pushing force for the canister from the receiving slot  106  to the mailbox or delivery receptacle  102 . 
     The tablet  114  displays the status  506  of the lockbox. The lockbox icon  506  indicates the status of the lockbox and alerts the user if an item is placed inside the lockbox. The tablet  304  also displays the lock or unlock screen option  508  that allows a user to lock the tablet  114  when not in use. The tablet  114  notifies the resident or user about the date and time  510  of the deliveries, such as items  512  or packages  514 . The item option  512  provides a notification to indicate that an item is located inside the carrier  110 , or lockbox  140  of the delivery receptacle. It should be appreciated that a notification is automatically sent to the tablet  114  from the mailbox or delivery receptacle  102  when an item is placed inside the mailbox  102 . Similarly, a notification is also shown on the tablet  114  when a canister or shuttle  110  has an item is placed in the receiving slot  106 . 
     The package option  514  alerts a resident or user when a courier delivery person scans a package at scanner  112  positioned near the front door, and notifies a resident about which courier service has delivered the package. The pop-up notification generated by the scanner  112  to the resident&#39;s tablet  114  indicates the courier services such as Fedex, USPS, DHL, USPS, or any such type of courier service that has delivered the package. The tablet  114  also displays the flag option  516  that enables a user to control the flag position integrated on the frame of the mailbox or delivery receptacle  102 . The tablet  114  can also allow a user to control the outgoing indicator light  302  integrated on the frame of the mailbox or delivery receptacle to indicate that there are outgoing items present inside the carrier  110 . The tablet  114  can also enable a user to lock and/or unlock the main door of the mailbox  102 . In one embodiment, the alerts shown on the tablet  114  are in the form of the audio alerts that indicate that the mailbox  102  is open and there are items inside the carrier  110  positioned in the cavity  124 . 
     The alert or notification shown on the tablet  114  can be in the form of a push notification, a visual alert such as picture, video footage or current status of the mailbox or delivery receptacle. 
       FIG. 6  illustrates a flow diagram showing exemplary steps in performing operation of the pneumatic mail delivery system of the present invention for receiving mail inside the home in accordance with the disclosed specification. As shown in  FIG. 6 , a pneumatic mail delivery system is initially setup between the user location and the delivery area, such as the inside and outside of the house. A pneumatic tube as a conduit is installed along with a compressor for delivering items. The pneumatic tubing system utilizes a vent or a fan (using a compressor) to carry items in canisters through the tubing from the mailbox or the delivery receptacle to the home interior and vice versa (Block  602 ). Integrated sensors located inside the canister, cavity and the lockbox detect the items placed in the carrier of the mailbox or the lockbox present below the mailbox (Block  604 ). When one of the sensors detects the items, then, the light present inside the house turns on to alert the resident that they have received items (Block  606 ). Simultaneously or after few seconds, the tablet positioned inside the house receives a pop-up notification indicating that the items are placed (Block  608 ). Thereafter, the received alert is seen and reviewed by user, resident or homeowner to check the status and other information of the item (Block  610 ). Then, the resident or user adjusts the direction of the carrier, canister or shuttle from the mailbox to the receiving slot inside of the home or user location using the tablet (Block  612 ). The pneumatic tubing system carries the items through the tubing from the mailbox to the home interior and accordingly, the resident directly receives the items inside the house (Block  614 ). 
     In use, the pneumatic mail delivery system  100  and pneumatic mailbox  102  function as a postal or courier device that provides security and safety measures users, homeowners and residents. The system  100  allows items and packages to be rapidly and securely received without a user going outside. The system  100  provides security with control through the tablet  114  and scanning of the packages through the scanner  112 . An advantage of the present invention is its ability to provide users, homeowners and residents the privilege of avoiding inclement and dangerous trips to the mailbox or other delivery locations  102 . 
     Automatic delivery of the mail or other items using the carrier, canister or shuttle also enables a mail or courier delivery person to quickly deliver mail or other items to one or more residences or user locations. This is especially advantageous when delivering mail or other items to a plurality of mailbox or delivery receptacle terminals housed in a single cabinet, for example at an apartment complex. 
     Certain terms are used throughout the following description and claims to refer to particular features or components. As one skilled in the art will appreciate, different persons may refer to the same feature or component by different names. This document does not intend to distinguish between components or features that differ in name but not structure or function. As used herein “pneumatic mail delivery system”, “mail delivery system”, “comprehensive mail delivery system” and “system”, are interchangeable and refer to the pneumatic mail delivery system  100  of the present invention. Similarly, as used herein “pneumatic mailbox”, “outside mailbox”, and “mailbox”, are interchangeable and refer to the pneumatic mailbox  102  of the present invention. 
     Notwithstanding the forgoing, the pneumatic mail delivery system  100  and the pneumatic mailbox  102  of the present invention can be of any suitable size and configuration as is known in the art without affecting the overall concept of the invention, provided that it accomplishes the above-stated objectives. One of ordinary skill in the art will appreciate that the size, configuration, and material of the pneumatic mail delivery system  100  and the pneumatic mailbox  102  as shown in the FIGS. are for illustrative purposes only, and that many other sizes and shapes of the pneumatic mail delivery system  100  and the pneumatic mailbox  102  are well within the scope of the present disclosure. Although the dimensions of the pneumatic mail delivery system  100  and the pneumatic mailbox  102  are important design parameters for user convenience, the pneumatic mail delivery system  100  and the pneumatic mailbox  102  may be of any size that ensures optimal performance during use and/or that suits the user&#39;s needs and/or preferences. 
     Various modifications and additions can be made to the exemplary embodiments discussed without departing from the scope of the present invention. While the embodiments described above refer to particular features, the scope of this invention also includes embodiments having different combinations of features and embodiments that do not include all of the described features. Accordingly, the scope of the present invention is intended to embrace all such alternatives, modifications and variations as fall within the scope of the claims, together with all equivalents thereof. 
     What has been described above includes examples of the claimed subject matter. It is, of course, not possible to describe every conceivable combination of components or methodologies for purposes of describing the claimed subject matter, but one of ordinary skill in the art may recognize that many further combinations and permutations of the claimed subject matter are possible. Accordingly, the claimed subject matter is intended to embrace all such alterations, modifications and variations that fall within the spirit and scope of the appended claims. Furthermore, to the extent that the term “includes” is used in either the detailed description or the claims, such term is intended to be inclusive in a manner similar to the term “comprising” as “comprising” is interpreted when employed as a transitional word in a claim.