The field of the invention generally relates to receptacles for receiving objects while preventing unauthorized access to the received objects, and more specifically to delivery receptacles for receiving parcels and packages that have variable relative carrier and receiver access points. The receptacle may be formed of multiple attachable pieces in order to reduce the size of shipping containers in which the attachable pieces may be shipped by delivery services, such as the United States Postal Service (USPS), Federal Express, United Parcel Service (UPS), or other private carriers and delivery services, and the like.
This present invention is directed to a delivery receptacle that provides flexibility in how it is installed to provide the using parties different receptacle access points to suit the particular application. There are generally two parties who use delivery receptacles; 1) the party who delivers the item(s) being delivered (a deliverer, or courier), and 2) the recipient of the delivered item, or receiver. The point of desired receptacle access may differ for each party. This invention provides these parties flexibility in how they access the receptacle, depending on various factors, such as physical constraints of the installation location, proximity to roadways, relative positioning of sidewalks and paths, and installation into column, walls or fences. In this concept, the receptacle can be installed giving the courier one access point (e.g., deliver to the top front of the receptacle), and the receiver another access point (e.g., retrieve from the bottom rear of the receptacle). The same receptacle can be adjusted to accommodate other access points at the time of assembly and/or installation and/or even after assembly and/or installation, including during use, such that it not be pre-configured at the time of manufacture and held static at installation.
Accordingly, the present invention is directed to an innovative delivery receptacle for receiving objects (such as parcels and mail) deposited into the receptacle and securely storing them once deposited, which also allows the relative position of a delivery door for a delivering party (e.g., a courier or other deliverer) to deposit the objects in the receptacle, and an access opening often covered by a door for a receiving party (recipient) to remove the objects, while also often restricting access to the deposited objects after they are deposited into the receptacle. The receptacle may be a stand-alone receptacle or it may be a structure mounted unit (such as installation in a wall or other supporting structure).
The invention provides a receptacle for receiving and securing an object, comprising a housing including; i) a first section having an input opening located on a first side of the first section for receiving an object being deposited into the receptacle, and ii) a separate second section forming a storage compartment for receiving and securely storing an object deposited into the receptacle. A delivery door is located on the first side of the first section, with the delivery door rotatable between a closed position in which the delivery door blocks the input opening and an open position in which the delivery door allows access through the input opening to place an object into the receptacle and allow the object to enter into the storage compartment. An access opening is located on a first side of the second section and is configured to provide access to the storage compartment for removing objects deposited into the receptacle. An access door mounted on the first side of the second section rotatable between a closed position in which the access door blocks the access opening and an open position in which the access door allows access into the storage compartment for retrieving an object in the storage compartment. The first section and the second section are configured such that they can be positioned rotationally about a substantially vertical axis at different angular positions relative to each other to allow the input opening and the access opening to be located at different angular positions relative to each other while still allowing an object deposited through the access opening to enter into the storage compartment and be stored in the storage compartment.
Further and alternative aspects and features of the disclosed principles will be appreciated from the following detailed description and the accompanying drawings. As will be appreciated, the principles disclosed herein are capable of being carried out in other and different embodiments, and capable of being modified in various respects. Accordingly, it is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and do not restrict the scope of the appended claims.
15A is a perspective view of a second embodiment of the inventive receptacle in a second orientation with the delivery door in the partially open condition and the access opening covered by a door in the closed condition.
15B is a cross sectional side view of a second embodiment of the inventive receptacle in a second orientation taken along line 15B-15B of
16B is a cross sectional side view of a second embodiment of the inventive receptacle in a second orientation taken along line 16B-16B of
Reference will now be made in detail to specific embodiments or features, examples of which are illustrated in the accompanying drawings. Wherever possible, corresponding or similar reference numbers will be used throughout the drawings to refer to the same or corresponding parts. Moreover, references to various elements described herein, are made collectively or individually when there may be more than one element of the same type. However, such references are merely exemplary in nature. It may be noted that any reference to elements in the singular may also be construed to relate to the plural and vice versa without limiting the scope of the disclosure to the exact number or type of such elements unless set forth explicitly in the appended claims. The terms configured and configuration may be used herein to refer to a specified arrangement, or a structural size and shape.
In one embodiment, as best shown in
The receptacle 100 has a delivery door 110 located on the first side 112 of the first or top section 104. The delivery door 110 is rotatable between a closed position (as shown in
The second or bottom section 106 has an access opening 117 and access door 114 located on a first side 116 of the bottom section 106. The access door 114 is configured to provide access to the storage compartment 107 for removing objects deposited into the receptacle 100. In one embodiment, the access door 114 has a vertical hinge 113 and an access door lock 115 to lock and unlock the access door 114 to control authorized access.
The first section 104 and the second section 106 are configured such that they can be positioned rotationally about a substantially vertical axis at different angular positions relative to each other to allow the delivery door 110 and the access door 114 to be located at different angular positions relative to each other while still allowing an object deposited through the delivery door 110 to enter into the storage compartment 107 and be securely stored in the storage compartment 107.
In the exemplary embodiment shown in
the access door 114 substantially vertically aligned with delivery door 110;
the access door 114 located to the right of the delivery door 110 (i.e. 90° to the right);
the access door 114 located to the left of the delivery door 110 (i.e. 90° to the left); and
the access door 114 located substantially behind the delivery door 110 (i.e. 180° from the delivery door 110).
If the delivery door 110 is positioned at a front of the receptacle 100, then these positions can be described as:
the access door 114 positioned at the front of the receptacle 100 such that it is substantially vertically aligned with the delivery door 110;
the access door 114 angularly positioned about 90° to the right of the delivery door 110;
the access door 114 angularly positioned about 90° to the left of the delivery door 110; and
the access door 114 angularly positioned at a back of the receptacle 100 at about 180° of the delivery door 110.
In another aspect, the first section 104 and second section 106 may be substantially rectangular shape (one example is the square shape, described herein). For a rectangular shape that is not a square, there are only two different relative angular positions of the first section 104 and second section 106. A first position in which the access door 114 and delivery door 110 are aligned on the same side of the receptacle 100, and a second position in which the access door 114 and delivery door 110 are on opposite sides of the receptacle 100 (i.e., front and back).
In another embodiment of a receptacle 100, the first section 104 and the second section 106 are configured such that they can be positioned rotationally at different relative angular positions about the vertical axis substantially continuously from 0° to 360°. For example, the first section 104 and second section 106 may have substantially circular shapes at least at their connection interface, so that the first section 104 and second section 106 can be positioned rotationally at any relative angular position. Alternatively, the first section 104 and second section 106 may have mating interfaces which allow them to be positioned rotationally at any relative angular position, such as respective circular interfaces formed in, or coupled to, each of the first section 104 and second section 106.
In another aspect of one embodiment of the receptacle 100, the first section 104 has a bottom portion 120 and the second section 106 has a top portion 122. The bottom portion 120 of the first section 104 and the top portion 122 of the second section 106 are configured to securely attach to each other via an interface 124 at each of the different angular positions of the first section 104 and second section 106 relative to each other. In still another aspect, the bottom portion 120 of the first section 104 and the top portion 122 of the second section 106 have a substantially rectangular shape at the interface. In yet another aspect, the bottom portion 120 of the first section 104 and the top portion 122 of the second section 106 may have a substantially polygonal shape at the interface 124. In still another aspect, the bottom portion 120 of the first section 104 and the top portion 122 of the second section 106 may have a substantially circular shape at the interface 124.
In another aspect, the receptacle 100 may further comprise an extender section (not shown) configured to be positioned between, and to attach to, the first section 104 and the second section 106. The extender section has an interior open space to allow an object to pass from the first section 104, through the extender section, and into the storage compartment 107 of the second section 106. The extender section may be configured to securely attach to at least one of the first section 104 and second section 106 at different angular positions relative to the at least one of the first section 104 and second section 106 to allow the first section 104 and second section 106 to be positioned rotationally at the different angular positions relative to each other. The extender section may be attached to one or both of the first section 104 or second section 106 to allow the first section 104 to swivel with respect to the second section. The amount of rotation of the swivel may be fixed during use, or allowed to continue during use of the receptacle 100. Both of the attachment points to the first section 104 and second section 106 may be configured to reduce water ingress into the storage compartment 107.
In still another aspect, the receptacle 100 is configured such that the first section 104 and second section 106 can be shipped separately in respective shipping containers or parcels that do not require oversize shipping surcharges. For instance, United Parcel Service (UPS) charges an oversize surcharge for parcels having a length plus girth (where girth is defined as=(2×width)+(2×height) exceeding 118 inches. Similarly United States Postal Service (USPS) charges an oversize surcharge for parcels having a length+girth (length=the longest dimension and girth=the distance around thickest part of parcel) exceeding 108 inches. And Federal Express charges an oversize surcharge for parcels having a length+girth exceeding 130 inches. Thus, the first section 104 and second section 106 may each be configured to be shipped in separate parcels not exceeding one or more of these oversize parcel limitations.
In yet another aspect, the angular position of the first section 104 relative to the second section 106 can be adjusted while the first section 104 remains attached to the second section 106 in order to adjust the angular position of the delivery door 110 relative to the access door 114. For example, an embodiment having a first section 104 and second section 106 having a circular shape or a circular interface 124 with the bottom portion 120 of the first section 104 rotatably captured by the top portion 122 of the second section 106 or vice versa. In this embodiment, the first section 104 may pivot or swivel about a vertical axis extending through the second section 106 while attached to the second section. Alternatively, a non-circular embodiment, such as the rectangular (e.g., square) shape described herein may also be configured to allow the first section 104 and second section 106 to be rotated relative to one another using a rotational interface 124 that may be hidden from outside view. In these embodiments, the interface must have an interior opening to allow packages to travel from the input opening 108 to the storage area 107.
In another aspect, as illustrated in the exemplary embodiment of
As shown in
Various suitable fasteners or fastening systems may be utilized. In another aspect, the one or more fasteners are quick-release fasteners 126 in order to allow the first section 104 and second section 106 to be quickly and easily attached and detached. In one embodiment, the releasable fasteners 126 comprise a clip 128 preferably made of a resilient plastic that rotates about a horizontal axis 132 defined by a pin 134. The pin is held in place on the lip 146 at the bottom of the first section 104 by a bracket 136 that is suitably affixed to the lip 146 and bottom portion of the first section 104 for example by welding. The clip 128 has an aperture 154 near its proximate end 164 that allows it to rotate from an open condition as seen in
The catch 140 may also be made of resilient material. In one embodiment, it is held onto the ledge 138 by pins 174 that extend through apertures 176 in the vertical section 144 on either side of aperture 168. The catch 140 may be held in place by an interference fit between the pins 174 and apertures 176 by a nut 178 secured to the pin 174.
In a further aspect of the invention, the latch portion 130 of the releasable fastener 126 includes a means 180 for maintaining the clip 128 in the open condition as seen in
In still another aspect, the receptacle 100 may further include adjustable leveling feet 125 disposed on a bottom of the second section 106. For instance, four leveling feet, one at each corner of the second section 106, may be utilized. In a further aspect, the second section 106 may be pivotally mounted on a base to allow the top 104 and bottom 106 sections to pivot together about a vertical axis. In still another aspect, the input opening 108 and delivery door 110 may be associated with the second section 106 and the access opening 117 and access door 114 associated with the upper section 104.
In yet another aspect, at least one of the first section 104 and the second section 106 is installed into a structure such as a fence 196 (as shown in
In still another aspect, the first section 104 and second section 106 may both be installed in a structure such as a wall or a column in spaced apart relation to one another. The structure has an interior open space to allow an object to pass from the first section 104, through the interior open space of the structure, and into the storage compartment 107 of the second section 106. Since the receptacle may be mounted in many varied locations and structures, it can be appreciated that the upper section 104 may be pivotable about the lower section 106 in other axes than a vertical axis.
The receptacle 100 may also have one or more cameras 184, and or other sensors, and a communications device for transmitting video from the cameras 184 to a monitoring system, such as a computer (e.g., a local monitoring system at the location of the receptacle 100, and/or a remote monitoring system, such as a security company system or the internet of things) for monitoring the receptacle 100. A camera 184 may be located on first side 112 of the first section 104 just below the roof or top 198, as shown in
The receptacle 100 may also include a secure delivery door system 186 disposed in the first section 104. The delivery door system 186 is configured to allow a deliverer to deposit an object into the receptacle 100, while preventing access to the storage compartment 107 through the input opening 108. In one embodiment, the delivery door system 186 may comprise a lower extension (not shown) to the delivery door 110 that rotates into the first section 104 to restrict access to the storage compartment as the upper portion of the delivery door 110 is rotated away from the first section 104.
In another embodiment, the secure delivery door system 186 comprises a delivery drum 190 which is mechanically coupled by a linking mechanism 188 to the delivery door 110. In one embodiment, the linking mechanism comprises a first gear 192 fixed to the 140 delivery drum and a second gear 194 fixed to the delivery door 110. The first gear mates with the second gear such that rotation of the first gear in the first rotational direction causes the second gear to rotate in the opposite rotational direction. The linking mechanism 144 is configured such that rotation of the delivery door 110 in a first rotational direction between the open position and the closed position causes the drum to rotate in an opposite rotational direction (a second rotational direction) between a loading position and an unloading position. The delivery door 110, delivery drum 190 and linking mechanism 188 are configured such that when the delivery door 110 is in the open position, the delivery drum 190 is in the loading position which allows an object to be placed through the input opening 108 into the delivery drum 190, and when the delivery door 110 is in the closed position, the delivery drum 190 is rotated to the unloading position in which the delivery drum 190 deposits the object into the storage compartment 107. The relative movement and position of the delivery drum 190 and delivery door 110 work together to restrict access through the input opening 108 and into the storage compartment 107 to secure the contents of the storage compartment 107 from unwanted access. Other secure delivery door systems 186 are described in co-owned U.S. Pat. Nos. 9,004,346 and 9,327,887, the disclosures of which are incorporated herein by reference.
In another embodiment, as best shown in
As in the exemplary embodiment shown in
the access door 114 substantially vertically aligned with delivery door 110;
the access door 114 located to the right of the delivery door 110 (i.e. 90° to the right);
the access door 114 located to the left of the delivery door 110 (i.e. 90° to the left); and
the access door 114 located substantially behind the delivery door 110 (i.e. 180° from the delivery door 110).
As can be appreciated, in the exemplary embodiment in
The pin 208 connecting the second end 205 of the second link 204 to the first end 212 of the third link slides in a substantially horizontal track 210. Thus, when the delivery door 110 goes from the open position to a closed position, the pin 208 moves from left to right along the track 210, as seen from the right of the receptacle 100. This forces the first end 212 of the third link 206 to also move to the right along the track 210. The second end 214 of the third link is rotationally linked to one end of a receiving tray 216 by pin 218. The opposite end of the tray 216 has a pair of protrusions 220 of vertical extent that slide in a pair of vertical grooves 222 adjacent either side of the input opening 108. Accordingly, when the delivery door goes from an open position to a closed position, the third linkage 206 rotates counterclockwise as seen from the right of the receptacle. This forces the tray 216 to rise, and when the delivery door is closed, as seen in
In one embodiment, in order to maintain the security of the object in the storage area 107, the rising of the tray 216 triggers a locking mechanism (not shown) into a locked state when the tray is proximate the interface 124. This locking mechanism prevents the tray 216 from being lowered from the interface 124 until the object is removed through the access opening 117 by unlocking the access door lock 115 and opening the access door 114. Various means can be associated with unlocking the locking means. In one embodiment, the opening of the access door 114 unlocks the locking mechanism.
In other embodiments, the lifting of the tray 216 may end with rotation of the tray 216 to result with it slanting toward the access opening 117. In this embodiment, the access door 114 may be removed. Thus, an object that is on the tray during lifting will ultimately slide off the tray, through the access opening 117 and into a second secure storage area adjacent the storage area 107. This embodiment may not require a locking mechanism, but may require a sensor to verify that the object has slid off the tray.
Lifting mechanisms 200 other than those employing linkages are contemplated in the invention. For example, gears, hydraulics or electro-motive apparatus may be employed to move the object from the first section 104 to the second section 106. Horizontal motion of the object is also contemplated. For example, a delivery door 110 pivoting on a vertical axis could be utilized with appropriate links or gears to slide an object horizontally into a storage area 107 in a second section 106 of receptacle 100.
Various embodiments disclosed herein are to be taken in the illustrative and explanatory sense, and should in no way be construed as limiting of the present disclosure. While aspects of the present disclosure have been particularly shown and described with reference to the embodiments above, it will be understood by those skilled in the art that various additional embodiments may be contemplated by the modification of the disclosed receptacles, systems and methods without departing from the spirit and scope of what is disclosed. Such embodiments should be understood to fall within the scope of the present disclosure as determined based upon the claims and any equivalents thereof.
This patent application claims the benefit of, and priority to, U.S. Provisional Patent Application No. 63/056,477, filed Jul. 24, 2020, which is incorporated by reference herein in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
1506646 | Kolstad | Aug 1924 | A |
5137212 | Fiterman | Aug 1992 | A |
5833132 | Bachmeier | Nov 1998 | A |
6109519 | McClure | Aug 2000 | A |
6719195 | Farentinos | Apr 2004 | B2 |
7320427 | Prestwich | Jan 2008 | B2 |
7946472 | Bolles | May 2011 | B2 |
8485424 | Taylor | Jul 2013 | B1 |
8573473 | Farentinos | Nov 2013 | B1 |
D702915 | Steele | Apr 2014 | S |
8960530 | Silke | Feb 2015 | B2 |
9004346 | Farentinos et al. | Apr 2015 | B2 |
9327887 | Farentinos et al. | May 2016 | B2 |
9717359 | Bolles | Aug 2017 | B2 |
10251503 | Fulps | Apr 2019 | B1 |
11206940 | Kaechele | Dec 2021 | B2 |
11253094 | Deck | Feb 2022 | B1 |
11503936 | Leng | Nov 2022 | B2 |
20020063148 | Cox | May 2002 | A1 |
20050104730 | Yang | May 2005 | A1 |
20080067227 | Poss | Mar 2008 | A1 |
20100127063 | Bolles | May 2010 | A1 |
20190343317 | Cantrell | Nov 2019 | A1 |
Number | Date | Country | |
---|---|---|---|
20220022680 A1 | Jan 2022 | US |
Number | Date | Country | |
---|---|---|---|
63056477 | Jul 2020 | US |