The present invention relates to methods and devices for receiving and securing packages.
More than ever, consumers are receiving goods via delivered packages. Online shopping, such via online vendors such as Amazon, has increased the volume of package deliveries to consumers.
One problem associated with package delivery is how to ensure that the packages are securely delivered. As the rate of package delivery has risen, so has the rate at which packages are stolen by thieves. However, existing methods of securely delivering packages have various drawbacks.
For example, in some cases the package sender may require the delivery company to deliver the package to the consumer in person and obtain a signature from the consumer confirming the delivery. As consumers know, this arrangement can be very inconvenient as it either requires them to be at the delivery location when the delivery is made or requires them to travel to a package facility to pick up their package in person.
As one attempt at securing packages, Amazon has created secure package drop-off and delivery locations for their customers. These “lockers” are secure package drop-off and delivery sites, much like postage boxes that can be found inside U.S. Postal Service locations. As with U.S. Postal Service locations, however, for a consumer to use one of these lockers, they must either travel to the locker to deposit their package (such as for a product return) or travel to the locker to pick up their package. This can be inconvenient and, particularly for the elderly and those with disabilities and the like, not an option.
An improved method and system for securing the delivery of packages is desired.
Aspects of the invention comprise garage door which includes a package delivery door, a package delivery door kit, a method of making or modifying a garage door to include a package delivery door, and a method of using a package deliver door which is associated with a garage door. In general, the package delivery door allows packages to be delivered into a garage space through a package delivery door which is provided in the garage door.
One embodiment of the invention comprises a garage door with a package delivery door comprising a garage door panel having a front and a back and a panel opening and a package delivery door mounted to the garage door panel. The package delivery door comprises a door frame connected to the garage door panel and defining a package delivery opening therethrough, the door frame having a top, a bottom, a first side and a second side; a delivery door comprising a panel supported by a panel frame, the delivery door having a top and a bottom, the bottom of the delivery door rotatably mounted to the door frame and movable between a first closed position in which the delivery door generally closes the package delivery opening and a second position in which the delivery door is rotated into a garage space behind the back of the garage door panel; at least one biasing device configured to bias the delivery door and a door stop, a position of the door stop adjustable relative to the door frame.
In one embodiment, the door frame comprises a front frame member which is located the front of the garage door panel and a rear frame member which is located at the rear of the garage door panel. The at least one biasing device may comprise a spring which is associated with a hinge which connects the delivery door to the door frame.
In one embodiment, a garage door may be formed with a package delivery door at the time the garage door is manufactured. In other embodiments, a garage door may be retrofit with a package delivery door. In a retrofit configuration, the package delivery door may be sold as a kit which is installed in a panel opening which is cut in an existing door.
In use, a package delivery person simply pushes a package through a package delivery opening defined by the door. When the package is pushed through the door, the delivery door preferably rotates into the garage space behind the door. The panel of the delivery door may form a ramp which allows the package to slide into the garage.
Other aspects of the invention comprise a controllable package delivery door. In one embodiment, a package delivery door includes a delivery door which can be opened to deliver a package, and which can be locked to prevent it from being opened. The controllable package delivery door may comprise a controller, a lock, and a reader or receiver. In one embodiment, the lock controls opening of the delivery door, where the controller is provided with an assigned unlocking code. A package may be provided with a tag which when read by a reader or an emitter which generates a signal which when received by the door (such as a control module or lock of the door), causes the lock to unlock so that the delivery door can be opened. The tag may provide or comprise information regarding the unlock code for the lock at the location where the package is to be delivered, or the emitter may emit such a code. The unlock code is unique to the door so that presentation of the package at a package delivery door will only unlock the door at the location where the package is supposed to be delivered.
In other embodiments, the lock might be opened manually, or remotely via the owner or a delivery person, such as by using a mobile communication device, a remote, a FOB or the like.
In other embodiments, the delivery door may include features such as a package scanner which allows the package to be identified and its delivery reported, a camera for capturing images at the delivery door, etc.
Further objects, features, and advantages of the present invention over the prior art will become apparent from the detailed description of the drawings which follows, when considered with the attached figures.
In the following description, numerous specific details are set forth in order to provide a more thorough description of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without these specific details. In other instances, well-known features have not been described in detail so as not to obscure the invention.
Aspects of the invention comprise a package delivery door, such as for a garage door, a method of using the package delivery door, and methods of making or modifying a garage door to include a package delivery door. The term “package” as used herein is generally meant to comprise an object which comprises an enclosure which houses an object therein, such as a box which houses or encloses an item. The term includes objects such as parcels, envelopes, boxes and other containers or the like which are used to transport objects (such as items which are ordered for delivery from one location to another). The present invention has particular utility to packages which are delivered to consumers, but has applicability to packages which are delivered to businesses or other entities/locations.
The garage door 22 may have various configurations as is known in the art. As is conventional, the garage door 22 is configured to selectively enclose a garage of a location, such as a garage of a house. Such a garage door 22 is known to have a wide variety of configurations, may be constructed from a wide variety of materials, may be configured to open and close in various manners (roll or swing up, slide, rotate out, etc.) and the like.
As illustrated in
As illustrated in
The door opening 36 might be pre-formed in the garage door 22, such as during original manufacturing of the panel 24 of the door 22. Alternatively, the panel or door opening 36 might be cut into an existing garage door 22, such as using a saw.
The frame 30 is associated with the door opening 36 and defines the delivery opening 28. In general, in one embodiment the front frame 34A is designed to be located at the front of the garage door 22 and defines a first opening, and the rear frame 34B is designed to be located at the rear of the garage door 22 and defines a second opening, wherein the first and second openings of the front and rear frames 34A,B define the delivery opening 28 (which essentially comprises a sub-part of the panel or door opening 36 through the garage door 22).
In one embodiment, the front frame 34A comprises a frame body 38. The frame body 38 may be generally planar and have a shape which generally corresponds to the desired shape of the door opening 36 and the delivery opening 28. In this case, the door opening 36 and the delivery opening 28 are both generally rectangular, so the frame body 38 has a similar shape. The front frame 34A also has a rearwardly extending flange 40. This flange 40 preferably extends from a back or rear side of the frame body 38. In one embodiment, the flange 40 extends around the entire circumference of the frame body 38 at the delivery opening 28. In this configuration, the frame body 38 and flange 40 both have a pair of generally vertically extending sides connected by a top and an opposing bottom.
The dimensions of the front frame 34A may vary. In one embodiment, the delivery opening 28 is approximately 18 inches wide and 12 tall/high and the frame body 38 extends outwardly around the delivery opening 28 about 2 inches. The flange 40 extends rearwardly from the frame body 38 by about 1.5 inches.
The rear frame 34B also comprises a frame body 42 and flange 44. The rear frame 34B may be similar in shape and dimensions to the front frame 34A. As illustrated in
As illustrated in
In one embodiment, the delivery door 32 comprises a support 50 and a panel 52. As best illustrated in
The panel 52 comprises a generally planar body. The panel 52 is sized and shaped so that when the delivery door 32 is in the closed position, the panel 52 closes the delivery opening 28. Thus, where the delivery opening 28 is about 18 inches high and 12 inches wide, the panel 52 has nearly the same dimensions (but is slightly smaller so that it fits into the frame 30 which defines the delivery opening 28).
The frame 30 supports the panel 52. As illustrated, the first and second arms 54,56 of the frame 30 extend along the sides of the panel 52 and the struts 58 extend across the width of the panel 52. As illustrated, the panel 52 is mounted to a front side of the frame 30 which faces the delivery opening 28 and the front of the garage door 22.
The delivery door 32 is mounted to the hinge 46, as best illustrated in
In one embodiment, the delivery door 32 includes an adjustable stop 62. The adjustable stop 62 may comprise a body which is mounted to the delivery door 32, such as the support 50, and which is designed to contact the rear of the garage door 22 when the delivery door 32 is moved to the open position. The adjustable stop 62 may be used to limit the rotation of the delivery door 32 into the open position.
In one embodiment, the adjustable stop 62 comprises a pair of mounting tabs 64,66 at either end of a stop body 68. Each mounting tab 64,66 preferably defines an elongate slot 70. The stop body 68 is preferably oriented at an angle relative to the mounting tabs 64,66. As illustrated in
In one embodiment, the adjustable stop 62 is mounted to the arms 54,56 of the support 50 in an adjustable fashion. In particular, in a preferred embodiment, one or more fasteners 72 may be passed through the slots 70 in the mounting tabs 64,66 and into engagement with the arms 54,56. The position of the adjustable stop 62 relative to the delivery door 32 may be adjusted by sliding the adjustable stop 62 and arms 54,56 relative to one another via movement of the fasteners 72 along the slots 70 (before tightening the fasteners to fix the adjustable stop 62 into a fixed position). As described below, the ability to change the position of the adjustable stop 62 facilitates mounting of the delivery door 32 on garage doors having different thicknesses (such as to insulated and non-insulated doors) while still controlling the opening of the delivery door 32 to the desired angle Θ.
Additional aspects of the invention, including the use thereof, will now be described. As described above, a garage door 22 may be manufactured with the package delivery door 20 already installed, whereby once the garage door 22 is installed, the package delivery door 20 is ready for use.
Alternatively, an existing garage door 22 may be retrofit with the package delivery door 20. In one embodiment, the package deliver door 22 might be sold as a kit. Such a kit might include the frame 30 with the door 32, a mounting template, mounting hardware (screws, etc.), and one or more seals or the like. As indicated, the door opening 36 may be cut into the garage door 22. For example, a template that is provided with the package delivery door 20 might be used by the end user as a guide to cutting the appropriate sized hole. As indicated in
Once the hole is cut in the door, the user may install the rear frame 34B and connect it to the rear of the garage door 22, such as with one or more fasteners (screws, etc.) The user may then mount the front frame 34A at the front of the garage door 22. As illustrated, the front frame 34A may be designed to slide into the flange 44 of the rear frame 34B. The user may then fix the front frame 34A (and the delivery door 32 which is mounted thereto), such as with fasteners. In one embodiment, to prevent fasteners from being visible at the front of the door, the front frame 34A may be mounted by passing fasteners through the flange 40 and into engagement with the rear frame 34B.
In one embodiment, a gasket or seal may be located between the rear frame 34B and the rear of the garage door 22 and the front frame 34A and the front of the garage door 22. These gaskets, which might comprise foam, rubber or the like, may aid in sealing the frame 30 to the garage door 22. The user may paint the package delivery door 20, such as the panel 52 and front frame 34A so that they match the color of the garage door 22.
Referring to
In one embodiment, the hinge 46 may be designed as a slow-closing hinge so that the delivery door 32 closes slowly. This prevents, for example, the panel 52 from slamming shut and catching a person's hand or the like.
When a package is to be delivered, the delivery person simply opens the delivery door 32 and pushes the package through the delivery opening 28. In one embodiment, the delivery person can press upon the panel 52 with their hand or the like in order to move it. In a preferred embodiment, however, the delivery person simply presses the package against the panel 52, causing it to rotate open.
In particular, as illustrated in
As illustrated in
Once the package has passed through the delivery opening 28, it falls to the ground inside of the garage behind the garage door 22. At this time, the package is securely located within the garage (and is thus not visible or accessible to third parties) and is protected from the elements (such as sun/rain/snow, etc.). The delivery door 32 is then biased back from its open position to its closed position.
So described, the package delivery door 20 solves problems associated with the prior art, including by readily securing packages to be delivered without a requirement that the customer be available to accept delivery. The package delivery door 20 has other advantages as noted herein. In addition, one aspect of the package delivery door 20 is that the panel 52 forms a package delivery ramp when it is in its open position, but when closed it does not extend outwardly of the garage door. This ensures that the delivery door 32 does not interfere with the movement of the garage door between its open and lowered position and does not pose a risk of harm to the user (e.g. the user will not run into the delivery door 32 when walking through the inside of the garage or the like).
One advantage to the package delivery door 20 is that its design allows a user to hold and push a package through the door without having to hold the door open. If the delivery person had to use one hand to open the delivery door 32, they would only have one hand to try and hold and guide the package through the door 32. This could result in the delivery person dropping the package or the like. In accordance with the design of the package delivery door 20 noted herein, the delivery person can keep both hands on the package and simply push the package against the door 32 to open it and then slide the package through the delivery opening 28.
Another advantage to the invention is that the package delivery door 20 can be used to secure an almost limitless number of packages and packages of different sizes and shapes. Even in the prior art where packages are delivered to a protected or secured area such as a mailbox, the size of the mailbox often limits the size of the package which can be securely delivered and/or limits the number of packages which can be delivered. In accordance with the invention, package delivery door 20 allows the interior of the use's garage to comprise the secure delivery area. Given the size of most garages, this allows for the secure delivery of packages of various sizes including very large packages, as well as very large numbers of packages. Thus, for example, if a user is on vacation and receives multiple package deliveries, all of those packages may be securely deposited in the user's garage.
The package delivery door 20 may be constructed from various materials, such as metal, plastic, composites or combinations thereof. The components thereof might be colored or might later be painted.
As noted above, in one embodiment, the front of the face of the front frame member 34A and the face of the rear frame member 34B are positioned at the front and rear of the garage door panel 24. In this configuration, the frame 30 of the package deliver door 20 does not protrude outwardly of the garage door 22 where a person, animal or the like might run into it. For example, this reduces the chances that a person walking through the interior of their garage would run into a portion of the door 20. In this same vein, in one embodiment the deliver door 32 is mounted so that when closed, it is positioned between the front and rear of the frame 30 and does not protrude outwardly. As noted, on one embodiment, when closed the front of the delivery door 32 may be co-extensive or co-planar with the front of the frame 30 and the front of the garage door panel 24. This eliminates any backset, thus making it appear that the garage door is planar, and aids in preventing debris, water and the like from entering the door 20.
As noted above, the package delivery door 20 has particular advantages when associated with a garage door 22. However, the package delivery door 20 may be associated with other structures, such as swinging access doors (such as front doors), walls and the like.
The package delivery door 20 may include other features or elements.
The control module 100 may include or communicate with one or more devices or systems. For example, the control module 100 may communicate with a reader or scanner 102, such as a bar code scanner. The module 100 may include or communicate with a lock 104. The controller of the module 100 may communicate with other devices directly (such as via Wi-Fi or Bluetooth) or indirectly, such as via a network. For example, the controller of the module 100 might communicate with a user's communication or computing device or FOB 108 or such a device or FOB of a third party such as a deliver person, one or more servers 110, and/or one or more other computing devices 112.
As illustrated in
The lock 104 might be mechanical and/or electro-mechanical. For example, a key-operated manual lock might be provided. Such a lock might include a lock cylinder which is accessible from the front of the garage door and which can be rotated with a key to move a locking tab 106 which is positioned at the rear of the garage door. The locking tab 106 might be moved from a position in which it does not impede movement of the deliver door 32 to an open position to one where it prevents it from being opened. A user might, for example, lock the package delivery door 20 when they are away for long periods in order to prevent it from being opened/used. In other configurations, a package delivery person might be provided with the key so that they may unlock and use the door (or the delivery person might be provided with a universal key which fits all package door locks, thus enabling the delivery person to use a single key to open doors belonging to different users).
In a preferred embodiment, the lock 104 may be automatically or remotely controlled. For example, the lock 104 may include an electro-mechanical actuator such as a solenoid, motor or the like for moving the lock bar 106 (in at least one direction, wherein movement of the lock bar 106 to the other position might be via a biasing mechanism such as one or more springs, or where the mechanism moves the lock bar 106 in both directions). Of course, the lock 104 might have other configurations or features. For example, sliding bars, rotating arms or other elements may be utilized for preventing movement of the delivery door 32 to the open position.
Also, in one embodiment the lock might be self-locking. As one example, the lock might be configured so that one the delivery door 32 is opened and then closed, the door locks. For example, a user might unlock the package delivery door 20 in the morning, knowing that a package is set to arrive that day. Once the package is delivered, the door would then lock itself, thus ensuring that the delivered package is secured. The lock 104 might also be mounted in other manners, such as to the delivery door 32 rather than the frame, or even separately from the door 20, such as to the garage door 22.
In electro-mechanical variations, the lock 104 may be controlled via the control module 100 and/or by one or more remote devices via the control module 100. In some embodiments, the controller might be integrated into the lock 104, such as by having the lock include a communication interface, a processor, etc., such as to directly receive instructions from a remote device, such as a smart phone or remote type, such as via a wireless link (Bluetooth, Wi-Fi, infrared, etc.)
The lock 104 might include a finger print sensor, a keypad or other input device which allows the user to control which parties can unlock the door. For example, the lock 104 might include a battery-operated keypad into which a code may be input which causes a signal to be provided to a motor which locks and unlocks the lock (such as a servo-motor which turns the lock cylinder and thus the locking tab)
In some embodiments, as illustrated in
As one example, a package delivery person might be provided with a FOB or other device which transmits an “unlock” signal (such as an unlock code). The package delivery person might press a button to cause the FOB, remote or other device to transmit the unlock signal or code, or the device might continuously transmit such a signal or code. In this manner, as the package delivery person approaches the package delivery door 20, it may be unlocked (in the case of a continuously transmitting device, without the delivery person even having to access and trigger the device).
In one embodiment, a user might download an application to their mobile communication device. As one example, the consumer or the delivery person might input an access code into the application running on their mobile device, which access code is then transmitted (either directly, via the control module 100, or via a network) to the lock of the door, or which otherwise transmits a signal which causes the lock to unlock. Such an application or remote device might, for example, allow the consumer to remotely lock and unlock the package delivery door 20. In other embodiments, the application may simply cause the mobile communication device 108 to transmit a signal to the lock 104 or to the control module 100, to cause the lock 104 to lock.
Of course, the above-described features might also be used to allow the user (consumer or deliver person) to lock the door 20.
Such an application running on a mobile device (or by using a dedicated device or a computing device 112) might allow the implementation of other features, such as allowing the user to set various settings, such as to lock and/or unlock the door automatically at certain times of day (the device might transmit signals to the lock 104 or control module 100 to do this, or when the lock 104 has its own controller, that controller might receive programming instructions which it implements). As one example, a consumer might cause the lock 104 to be locked from Bpm to 8 am and then remain unlocked from 8 am to 8 pm.
The user might also set preferences, such as whether particular delivery companies or users may automatically unlock the door. As one example, the user might select “allow Fed Ex to remotely unlock your door” in the application settings. If the user selects this setting, the application might cause the user's device to send instructions to a central server. The central server or service might then communicate with a server or other computing device of Fed Ex by which the user's door and an unlock code are provided. The user's door ID and unlock code might then be programmed to the Fed Ex delivery person FOBs or other devices, thus allowing the delivery person to remotely unlock the user's door. Of course, in other embodiments, the user might directly provide such information to the delivery company or delivery person (such as by logging into a Fed Ex website where the user can input their door ID and an unlock code for use by Fed Ex in remotely unlocking the door).
In one embodiment of the invention, the package delivery door 20 may be unlocked based upon the detection of an authorized package. As illustrated in
In one embodiment, the lock 104 will only unlock if a designated unlocking code or signal is received. Preferably, this code is unique or relatively unique to the door 20, whereby the code which will unlock one package delivery door 20—such as belonging to one homeowner, will not unlock another package delivery door 20—such as a door of a neighbor.
In this embodiment, the emitter 120 may be programmed with the unlocking code for the package delivery door 20 to which the package is to be delivered and/or the tag 122 may be printed or encoded with the unlocking code. In this manner, as illustrated in
In one embodiment, for example, the delivery person may place the package P so that the tag 122 is read by the scanner 102. The scanner 102 reads the code, which includes the locking code. The unlocking code is then used by the control module 100 or the lock 104 to unlock the door, thus allowing the delivery person to push the package through the package delivery door 20 as described herein. In another embodiment, as the package P reaches the range of the package delivery door 20, the signal which is emitted by the emitter 120 may be detected by the control module 100 or the lock 104 (such as via the communication interface thereof).
In this embodiment, the emitter 120 or tag 122 may have an unlocking code directly associated therewith, which unlocking code relates to the package delivery door 20 to which the package is being delivered. In another embodiment, the emitter 120 or tag 122 may provide or comprise information which can be used to obtain such a code or otherwise effect an unlocking of the door. For example, the tag 122 might, when read, provide a customer code. This customer code might be transmitted by the control module 100 to a remote server 110 (such as of the delivery company, shipping company, product vendor, or the like). The customer code might then be used to look up the unlocking code for the door 20, which unlocking code is then transmitted back to the control module 100 and/or lock 104.
As one example of this embodiment of the system, a consumer might have an account with a vendor. The consumer might associate their door unlock code with that account. When the consumer orders a product from the vendor, the vendor may either associate the consumer's unlock code with their package or may provide the code to the shipper (such as FedEx) for association with the package when the package is shipped. Alternatively, as noted above, when the package is delivered, a request for the unlock code may be transmitted to the vendor or the shipper who then looks up the code and sends it to the control module 100 or lock 104.
As indicated above, the code associated with the lock 104 of the package delivery door 20 is preferably unique or relatively unique. Thus, as one example, a customer who lives at 124 Oak Street may order a product from a vendor for delivery. The customer's door unlock code may be 22880. The customer may have a neighbor at 126 Oak Street with a package delivery door 20 having an unlock code of 44598. The customer's product may be shipped with a tag 122 comprising a bar code of the unlock code 22880. Assume that the delivery person attempts to deliver the package to the neighbor's address by mistake. When the package delivery door 20 at the neighbor's house reads the tag 122, it will read the unlock code 22880. When this code is presented to the control module 100 or lock 104, it will not unlock the door since the unlock code is not correct for that door. The delivery person might then recheck the package or delivery instructions and realize that the package is being delivered to the wrong address, and then proceed to the customer's address for delivery of the package.
An advantageous aspect of this embodiment of the invention is that the package itself becomes the “key” for this lock. This avoids the need for the homeowner to unlock the package delivery door 20 or for a delivery person or the like to have an unlocking device, such as a key or a remote control or an unlocking code.
As noted above, in one embodiment, the package delivery door 20 may be self-locking. In other words, once the door is unlocked, such as via the mechanisms described above, the door may automatically relock after the delivery door 32 recloses or after a certain period of time.
The package delivery door 20 might also include monitoring features. For example, one or more image capture devices, such as cameras, may be associated with the package delivery door 20. The image capture devices could be used to capture the image of a person approaching the door (such as by facing out of the front of the garage door) or be configured to capture the image of the rear of the garage door, and thus the opening of the delivery door 32 and any packages being delivered. The image capture devices might save captured image information on one or more data storage devices (such as memory cards or sticks) and/or might be configured to transmit the capture image data to remote devices, such as a user's computer or phone (in one embodiment, image captured by the image capture device or a triggering alert might be sent from the door to a remote server for processing and then transmission to the user's device). In one embodiment, when activity is detected by the image capture device(s), an alert and/or captured image data might be sent to the user's device. In this manner, a user might be alerted when the package door has been used (and might, for example, then go check their garage for a package) or they might actually see a package delivery person approaching the package delivery door 32 and then opening the door and delivering a package. Relative to the lock feature described above, at the point where a user is alerted to the presence of a package delivery person, the user might remotely unlock the door to allow them to deposit the package and then remotely re-lock the door. Such an image capture device might be linked to the control module 100.
In one embodiment, the package delivery door 20 might include a package detector. Such a detector might comprise one or more image capture devices which detect a package being delivered through the door. Separately, or in addition, such a detector might comprise a scanner, such as the bar code scanner 102 described above. The scanner might detect and read a bar code of a package which is being delivered through the package delivery door 20 (for example, the scanner might be associated with the panel 52 wherein the panel 52 includes a scanning window and the bar code is read as the package passes along the panel 52 and over the scanning window). The scanned bar code might be transmitted to the user, the shipper and/or the delivery person (such as to their smart phone or over a network to a central facility or the like). In one embodiment, such a device might be used to confirm delivery of the package to the user via the door. In one embodiment, the scanner 102 or the control module 100 might send information regarding the code which was scanned (which may, for example, identify the package being delivered) along with information which identifies the customer, the customer's address or the like.
In one embodiment, the reader/scanner might be configured to scan information which is located in a specific location on the package, or relative to a particular package orientation. For example, the reader/scanner might be located at the top of the package delivery door 20 to read information which is printed on a top of the package as it passes through the delivery opening 28. Of course, this may require the package delivery person to orient the package so that the information is at the top. Thus, in other embodiments, more than one reader/scanner might be provided, such as for reading or scanning information on any side of the package.
The provision of a reader/scanner is advantageous over existing package delivery methods. Currently, for example, a package delivery person may be required to access a hand-held scanner and then manually scan a package at the time of delivery. When the package delivery door 20 includes a reader/scanner, the delivery no longer needs to utilize a hand-held scanner and does not need to scan the package, as such occurs automatically as part of simply delivering the package (by pushing the package through the delivery opening 28). As a result, a significant time savings is realized by the package delivery person, allowing them to deliver more packages per day (and reducing the delivery costs).
It will be appreciated that the system illustrated in
In a preferred embodiment, the package delivery door 20 is mounted relatively low in the garage door 22 in order to prevent delivered packages from dropping too far from the delivery door 32 to the ground. In other embodiments, the package delivery door 20 might include a net or other mechanism for catching packages. For example, a net might be mounted at the top end of the door panel 52 so that when a delivery person pushes a package along the panel 52 it then enters the net. When the package door 32 closes, the package would be entrapped in the net which hangs inside of the rear of the garage door 22.
In a preferred embodiment, the package door 32 is hinged at the bottom. In other embodiments, it could be hinged at the top or the door could comprise two or more elements, such as one part that hinges and top and another at the bottom, with one part opening upwardly and one downwardly and then closing about a generally horizontal midline through the delivery opening 28. In yet another embodiment, the package door 32 might comprise first and second parts which are each hinged to rotate about a vertical axis.
It will be understood that the above described arrangements of apparatus and the method there from are merely illustrative of applications of the principles of this invention and many other embodiments and modifications may be made without departing from the spirit and scope of the invention as defined in the claims.
This application is a continuation in part of U.S. application Ser. No. 16/355,448, filed Mar. 15, 2019, which is incorporated herein in its entirety by reference.
Number | Name | Date | Kind |
---|---|---|---|
1671611 | Rossman | May 1928 | A |
2829820 | Evers | Apr 1958 | A |
3874118 | Robinson | Apr 1975 | A |
4826075 | Burns | May 1989 | A |
5029753 | Hipon et al. | Jul 1991 | A |
5161328 | Traue | Nov 1992 | A |
5287654 | Davlantes | Feb 1994 | A |
5492272 | Fewer | Feb 1996 | A |
5624071 | Sosan | Apr 1997 | A |
5897053 | Cirimele | Apr 1999 | A |
5979750 | Kindell | Nov 1999 | A |
6987452 | Yang | Jan 2006 | B2 |
7240823 | Saidiazar | Jul 2007 | B1 |
7246562 | Lee | Jul 2007 | B2 |
7484286 | Fowler | Feb 2009 | B2 |
8999478 | Medlen | Apr 2015 | B1 |
9619955 | Eichenblatt | Apr 2017 | B2 |
9926737 | Wanjohi | Mar 2018 | B2 |
9955812 | Charbeneau | May 2018 | B2 |
20020070269 | Rosiello et al. | Jun 2002 | A1 |
20090241422 | Mock | Oct 2009 | A1 |
20170328098 | Ben-Zion | Nov 2017 | A1 |
20180142514 | Alvarez | May 2018 | A1 |
20180199745 | Charbeneau | Jul 2018 | A1 |
20180317687 | Crooks | Nov 2018 | A1 |
20190043298 | Moudy | Feb 2019 | A1 |
20190167025 | Cherry | Jun 2019 | A1 |
20190254459 | Hengst | Aug 2019 | A1 |
20190261802 | Vernal | Aug 2019 | A1 |
Number | Date | Country |
---|---|---|
118214 | Aug 1918 | GB |
Number | Date | Country | |
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Parent | 16355448 | Mar 2019 | US |
Child | 16522432 | US |