PRODUCT CONTAINER ASSEMBLY HAVING A SECURITY DEVICE

BACKGROUND

1. Technical Field

This present invention relates generally to devices for holding and enclosing products and to security devices for use with such devices to substantially prevent or deter theft. More particularly, it relates to a container or package for a product having an electrical circuit and a removable security device connecting to the electrical circuit.

2. Description of Related Art

Many types of containers are known for consumer products, including cosmetics, such as perfumes and makeup, electronic devices, such as cellular phones, MP3 players, cameras, navigation systems, as well as other types of products that are housed in different types of packaging.

A problem encountered with such known apparatuses is the removal and theft of a product for sale from the apparatus within a store selling such products. The product is usually provided within a container which is provided with a security tag which triggers an alarm if the container is taken out of the store without the tag first being removed or rendered inactive by staff in the store. However, it has been found that thieves may be able to remove a product from the packaging, thereby thwarting the use of a security tag. They then leave the empty container on the shelf and leave the store with the product outside of the packaging without triggering the alarm system.

There are also other ways thieves can try to avoid the existing security measures taken by stores selling products. Security tags are often provided on the products and thieves may, for instance, remove or disable these. The term “security tag” is used herein to refer to any form of component which triggers an alarm if taken past a sensor.

For these reasons, many stores only display empty containers and when a customer has made a selection, the staff retrieves the relevant product from a secure cupboard or safe and place it in the container for the customer. However, this takes additional time and requires an additional secure storage place for the products. It also increases the risk that the wrong product may be put in the container, especially if the staff are busy. The stores would also prefer for the products to be held within the boxes on display as this is more appealing to a potential customer than an empty box (and has been shown to significantly increase sales). There is therefore a desire within the trade to be able to display product containers with the relevant product already held therein; such a practice being known as “live” storage within the trade.

Prior art devices for increasing the security of such containers tend to be bulky and expensive. One known form of device comprises a “keeper” in the form of a robust casing or frame which fits around, or partially around, the exterior of the container and is locked in a closed position so it is impossible to open the container without first unlocking and removing the keeper. Such keepers are difficult to handle, substantially increase the size of the product (often increasing the size of the product by 30% or more and so occupying more shelf space). They also detract from the aesthetics of the product, may conceal some of the artwork on the exterior of the container and considerably reduce the attractiveness of the product to a potential customer. Additionally, stores have to maintain a variety of different sized keepers, as the packaging around the product varies in size. Further, if a product or its packaging is redesigned to be physically larger, a store may have to replace all of their existing keepers with larger keepers, increasing the retailer's expenses of selling the products.

Some products may utilize a “spider” type security device that typically includes an alarm that is secured on the outside of a container by a system of cables that are lockable to the container. The spider security device typically is adapted to provide an audible alarm if the container is removed from a predetermined area of a retail environment. However, a skilled thief may be able to remove a spider type security device by cutting the cable, or unlocking the cables and removing the spider. The cables can also be slid off the package through manipulation, which allows the spider to be removed. Further, the spider security device also increases the shelf space required to store a product, as the spider security device is attached to the outside of the container. Further, the spider security device detracts from the aesthetics of the container by covering at least a portion of the container.

WO97/02569 describes another form of security device in which one edge of the container is inserted into a channel shaped keeper which fits over the edge of the product and extends at least part way over opposite external faces of the container to prevent the container from being opened. Such a keeper is still a relatively complex and expensive item, which adds significantly to the external dimensions of the container, reduces the attractiveness of the container to a potential customer and prevents the container from being stood on its bottom edge. For these reasons, this type of device has not been widely used.

U.S. Pat. No. 7,404,484, which is incorporated by reference in its entirety herein, describes a security device that effectively secures a media disc within a container. The security device may pass through a side of the container and interacts with a disk engaging mechanism in order to both secure the container in a closed position and inhibits removal of the media disk by inhibiting actuation of the disk engaging mechanism. However, such a security device may not cooperate with a security system in a retail environment, and such a security device is not adapted for use with containers for products other than media disks.

Similarly, U.S. Pat. No. 7,315,253, which is incorporated by reference in its entirety herein, describes a security device that includes a transponder for use with a security system in a retail environment. However, such a security device may be defeated by a thief that tampers with the container or is able to remove the security device, or is able to prevent communication from the security system in the retail environment. Further, such a security device is not adapted for use with containers for products other than media disks.

However, existing containers and security devices do not adequately alert a retailer when a container is being tampered with in order to steal a product inside of the container or when a container is being placed inside a shielding device, such as a foil lined shopping bag, in order to thwart the security system of the retail environment. Therefore, a need exists for a product container having an improved security device.

SUMMARY

One aspect of the disclosure provides a product package having: a plurality of walls configured to contain contents therein upon assembly, each of the plurality of walls having an interior surface and an exterior surface; a printed circuit connected to more than one of the interior surfaces of the plurality of walls; at least one of the plurality of walls of the product package configured to be moved between (a) an open position allowing access to contents in the product package via an opening and (b) a closed position substantially preventing access to the contents therein by closing the opening. The printed circuit extends across the opening such that in the closed position the printed circuit is connected and in the open position the printed circuit connection is broken.

According to another embodiment, a blank configured for assembly for forming an assembled product package is provided. The blank includes: a plurality of walls configured to contain contents therein upon assembly, each of the plurality of walls comprising an interior surface and an exterior surface; a printed circuit connected to more than one of the interior surfaces of the plurality of walls; at least one of the plurality of walls of the assembled product package configured to be moved between (a) an open position allowing access to contents in the product package via an opening and (b) a closed position substantially preventing access to the contents therein by closing the opening. The printed circuit extends across the opening such that in the closed position the printed circuit is connected and in the open position the printed circuit connection is broken.

Other features and advantages of the present disclosure will become apparent from the following detailed description, the accompanying drawings, and the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a product container having a security system according to one embodiment.

FIG. 2 is a top view of the product container of FIG. 1.

FIG. 3 is a detailed view of the product container of FIG. 1 showing a security tag within the product container.

FIG. 4 is a perspective view of a security tag according to one embodiment.

FIG. 5 is a perspective view of another embodiment of a product container having a security system.

FIG. 6 is a perspective view of a product container having a security system according to yet another embodiment.

FIG. 7 is a top view of the product container of FIG. 6.

FIG. 8 is a detailed view of the product container of FIG. 6 showing a security tag within the product container.

FIG. 9 is a perspective view of yet another embodiment of a product container having a security system.

FIGS. 10 and 11 illustrate perspective views of alternate embodiments of product packages having a security system.

FIG. 12 illustrates one embodiment of a blank with a printed circuit thereon configured to form a product package in accordance with an embodiment.

FIGS. 13, 14, and 15 illustrate perspective views of a product package formed form the blank of FIG. 12.

FIG. 16 illustrates one embodiment of another blank with a printed circuit thereon configured to form a product package in accordance with another embodiment.

FIGS. 17 and 18 illustrate perspective views of a product package formed form the blank of FIG. 16.

FIG. 19 illustrates an embodiment of a blank with a printed circuit thereon configured to form a product package in accordance with yet another embodiment.

FIGS. 20 and 21 illustrate perspective views of a product container formed form the blank of FIG. 19.

FIG. 22 illustrates perspective views of other embodiments of product packages having a security system.

FIGS. 23 and 24 illustrate a first side and a second side, respectively, of a blank, configured to form a product package in accordance with an embodiment.

FIG. 25 illustrates a perspective view of a product package formed form the blank of FIGS. 23 and 24.

FIGS. 26 and 27 illustrate a first side and a second side, respectively, of another blank, configured to form a product package in accordance with an embodiment.

FIG. 28 illustrates a perspective view of a product package formed form the blank of FIGS. 26 and 27.

FIG. 29 is a top view of yet another embodiment of a product package having a security system.

FIG. 30 is a top view of a first side of a blank configured to form the product package of FIG. 29.

FIG. 31 is a top view of a second side of a blank configured to form the product package of FIG. 29 in accordance with one embodiment.

FIG. 32 is a top view of a second side of a blank configured to form the product package of FIG. 29 in accordance with another embodiment.

FIG. 33 is a top view of a second side of a blank configured to form the product package of FIG. 29 in accordance with yet another embodiment.

FIG. 34 is a top view of a second side of a blank configured to form the product package of FIG. 29 in accordance with another embodiment.

FIG. 35 is a perspective view of a security tag for use with a product package disclosed herein according to another embodiment.

FIG. 36 is an exploded view of the security tag of FIG. 35.

FIG. 37 is a perspective view of a security tag for use with a product package disclosed herein according to another embodiment.

FIG. 38 is a side view of the security tag of FIG. 37.

FIG. 39 is a perspective view of a security tag for use with a product package disclosed herein according to yet another embodiment.

FIG. 40 is a sectional view of the security tag and package of FIG. 39.

DETAILED DESCRIPTION

Generally, the present disclosure is for a product package or product container for a retail product, such as a digital camera, MP3 player, cellular phone and/or other consumer electronics products, gift cards, rewards cards, exchangeable cards, reusable and/or reloadable cards, and the like. “Package” and “container” are used herein interchangeably throughout, it should be understood that both are designed to package items for sale in retail environments. Furthermore, the terms “interior” and “exterior,” “inner” and “outer,” and “inside” and “outside” are used throughout the description on a reference basis, and may be interchangeable, unless additionally stated. Such terms are not meant to be limiting. Any depiction or description, including size, shape, design, etc. of the packages, printed circuits, and security devices herein is exemplary only and not intended to be limiting in any way.

The description and Figures herein disclose multiple embodiments of a product package having a plurality of walls configured to contain contents therein upon assembly (e.g., from a blank). Each of the walls has an interior surface and an exterior surface. A printed circuit is connected to at least one of the interior surfaces of the walls. At least one of the walls is also configured to be moved between an open position allowing access to contents in the product package via an opening and a closed position substantially preventing access to the contents therein by closing the opening. The printed circuit extends across the opening such that, in the closed position, the printed circuit is connected, and in the open position, the printed circuit connection is broken. This can be implemented through the use of a security device that has a tag connecting to positive and negative contacts of the printed circuit. By breaking the circuit, an alarm (or other indicator) can be activated to provide an alert of unauthorized entry.

FIG. 1 shows a product container 10 in the form of a case having a base portion 12 and a lid portion 14 connected by a hinge portion 16. Both of the base portion 12 and the lid portion 14 have an interior surface and an exterior surface. The lid portion 14 is moveable relative to the base portion 12 from a closed position to an open position. When the case is open, it allows access to contents in the product package, and, when closed, it substantially prevents access to the contents therein.

A security device 18 is adapted to cooperate with the product container 10. The security device 18 is adapted to be removably inserted into or through a predetermined opening in the product container 10. For example, as shown in FIG. 1, the security device 18 can be adapted to be removably inserted into a first opening 20 in the base portion 12 and second opening 22 in the lid portion 14. The security device 18 can thus secure the product container 10 in a closed arrangement.

The product container 10 also comprises a printed circuit 24. In the illustrated embodiment, the printed circuit 24 is connected to and/or disposed at least partially on an interior surface of the base portion 12, the lid portion 14, and the hinge portion 16. However, it should be understood that this is not limiting and it is in accordance with embodiments that the printed circuit 24 is connected to the interior surface of at least one of the lid portion, the base portion, and the hinge portion. The printed circuit 24 is a continuous circuit that is formed from a conductive material, such as a metal (e.g., Aluminum) or other materials (e.g., Carbon). The printed circuit 24 may also be formed from a conductive ink or copper, and printed directly on the product container.

In an embodiment, the printed circuit comprises a pattern that has a density larger than the contents contained within the product container or package.

The printed circuit 24 shown in FIG. 1 has a first connector 26 and a second connector 28. The security device 18 is removably connected to the printed circuit 24 through first opening 20. More specifically, the first and second connectors 26, 28 are adapted to contact the security device 18, such that it is in electrical communication therewith. In addition to securing the case, the security device 18 also has an associated alarm or indicator adapted to provide an alert when conductivity of the printed circuit is broken. Unauthorized removal of the security device 18 from the product container assembly activates the associated alarm or indicator.

Accordingly, it should be understood that a “security device” as used throughout this disclosure refers to at least a device associated with an alarm or indicator and configured to activate an alarm or indicator when disconnected to a printed circuit. Also, in some embodiments, such as shown in FIGS. 1-3 and 5-9, for example, a security device can substantially prevent access to contents within a product package or container, by assisting in securing one wall (e.g., lid) to another wall (e.g., base).

As shown in FIG. 4, in one embodiment, the security device 18 has a first electrical contact 30 and a second electrical contact 32 adapted to connect with first connector 26 and the second connector 28, respectively, of the printed circuit 24 of product container 10. The security device 18 additionally comprises a first arm 34 and a second arm 36, the two arms 34, 36 being connected to a head 38. The first arm 34 is longer than the second arm 36. In an embodiment, the two arms 34, 36 and the head 38 may each comprise a flat strip of a relatively tough plastics material, e.g., glass re-enforced Nylon™ or ABS. The size of the security device 18 may vary based upon the size of the packaging and the type of product being secured. In addition, the security device 18 can be provided with a pressed steel insert 40 which fits within a groove 42 provided in the first arm 34 and against an inner surface of the head 38. The insert 40 comprises a resilient projection in the form of a spring arm 44, which projects upwardly from the arm 34 with its free end towards the head 38, and an end piece 46 which lies against the inner surface of the head 38 and fits between the first and second arms 34, 36. The spring arm 44 substantially prevents the security device 18 from being removed from the product container 10 until a magnetic release device, such as found at a checkout location within the retail environment and used by an employee, is utilized to release the security device 18 by causing the spring arm 44 to deflect downward into the groove 42 of the first arm 34. Additional details of this operation may be found in the incorporated U.S. Pat. No. 7,404,484, as mentioned above.

The spring arm 44 is inaccessible from the exterior of the product container 10 making it difficult, if not impossible, for a potential thief to open the container 10, to remove a product from the container 10.

A security tag 48, e.g., a Sensormatic™, Ultra-max™, and/or ferrite coil design, may be provided and mounted within a recess 50 provided in the first arm 34 of the security device 18 and may be secured therein by adhesive.

In an embodiment, the security device 18 additionally comprises a battery 52. The battery 52 supplies power to the printed circuit 24 and to an alarm 54 also found on the security device 18.

The alarm 54 detects whether the printed circuit 24 of the product container 10 maintains conductivity. Put another way, the alarm 54 detects if the printed circuit 24 has been broken, such as by a thief tampering with the product container 10 or other unauthorized entry. In accordance with an embodiment, when the alarm 54 detects that conductivity of the printed circuit 24 has been lost or broken, an audible tone or similar sound may be emitted by the alarm 54. In another embodiment, in addition and/or alternative to the audible alarm, an indicator may be activated. For example, a light may be activated. In another embodiment, an indicator may be remotely activated (e.g., on a screen, on a mobile device, etc.).

Additionally and/or alternatively, it is contemplated that the alarm 54 may also detect an electric signal broadcast by the retail location (e.g., remote activation), such as a radio signal or WiFi protocols. The alarm 54 may emit an audible tone or sound if the electric signal broadcast by the retail location is not detected, such as may happen should a thief place the container 10 into a foil lined bag, or other security system defeating package.

Thus, the security device 18 offers numerous anti-theft features for the product container 10. The security device 18 may assist in keeping the product container locked in a closed orientation. The security device 18 may have a security tag 48 which triggers an alarm if taken past a sensor and/or that interacts with a security system at the retail environment to cause an alarm to sound (or indicator to activate) if the product container is removed from a predefined area. In embodiments, the security device 18 also has an alarm 54 that determines if a printed circuit 24 within the product container 10 has been broken, indicating that an attempt has been made to open the product container 10. Further, the security device may have an alarm 54 that detects whether an electric signal broadcast by the retail location is detected, indicating an attempt to place the product container in a foil-lined bag, or other security defeating packaging, in an effort to remove the product container 10 from the retail environment.

The product container 10 shown in FIGS. 1-3 resembles an ordinary product container based on its outward appearance. The printed circuit 24 of this embodiment is disposed on an inner surface of the product container 10, so the printed circuit 24 does not interfere with any graphics that may be placed on the outside of the product container 10. However, as noted below, the printed circuit can, in some embodiments, be printed on the outside. Additionally, the printed circuit 24 and the security device 18 do not increase the overall size of the product container 18, allowing a retail environment to display more products on the same shelf space (as compared to exterior security packaging like known “keepers” and “spiders,” which were previously noted).

The security device 18 is adapted to be reused once the product container 10 it is initially placed in is sold to a consumer. A merchant can remove the security device 18 from the product container 10, and may then place it in another product container that is placed on a shelf in the retail environment.

It is contemplated according to another embodiment that a circuit could be printed on an intermediate carrier, such as a label or a sticker, which is attached to, or held proximate to, an inner wall of the container.

FIG. 5 shows another embodiment of a product container 100. The product container 100 is similar to the product container 10 shown in FIGS. 1-3; however, a printed circuit 124 is provided on an exterior label 120 adapted to be placed on an outer surface of the product container 100. The product container 100 comprises a base portion 112 and a lid portion 114 connected by a hinge portion 116. The base portion 112 has a slot 102 formed therein to allow a first connector 126 and a second connector 128 of the printed circuit 124 to electrically connect to the security device 18.

FIGS. 6-8 show a further embodiment of a product container 200. The product container 200 is similar to the product container 10 shown in FIGS. 1-3; however, a printed circuit 224 is provided on sidewalls 212a of a base portion 212 and on sidewalls 214a of a lid portion 214 of the product container 200. The product container 200 has a base portion 212 and a lid portion 214 connected by a hinge portion 216.

The security device 18 is adapted to cooperate with the product container 200. The security device 18 is adapted to be inserted into a first opening 220 in the base portion 212 and second opening 222 in the lid portion 214. The security device 18 thus secures the product container 200 in a closed arrangement.

The product container 200 further comprises a printed circuit 224. The printed circuit 224 is disposed on an interior surface of the base portion 212, the lid portion 214, and the hinge portion 216. The printed circuit 224 is a continuous circuit that is formed from a conductive material, such as a metal (e.g., Aluminum, Copper) or other materials (e.g., Carbon). The printed circuit 224 may also be formed from a conductive ink, and printed directly on the product container 200. The printed circuit 224 is provided on sidewalls 212a of the base portion 212 and on sidewalls 214a of the lid portion 214. Providing the printed circuit 224 on the sidewalls 212a, 214a increases the sensitivity of the security device 18, as the alarm 54 of the security device 18 will be triggered if the printed circuit 224 on the sidewalls 212a, 214a is interrupted.

The printed circuit 224 shown in FIG. 6 has a first connector 226 and a second connector 228. The first and second connectors 226, 228 are adapted to contact the security device 18 and electrically connect the printed circuit 224 to the security device 18.

FIG. 9 shows yet another embodiment of a product container 300. The product container 300 is similar to the product container 200 shown in FIGS. 6-8; however, a printed circuit 324 is provided on an exterior label 320 adapted to be placed on an outer surface of the product container 300. The product container 300 comprises a base portion 312 and a lid portion 314 connected by a hinge portion 316. The base portion 312 has a slot 302 formed therein to allow a first connector 326 and a second connector 328 of the printed circuit 324 to electrically connect to the security device 18.

The security device 18 is also capable of being used in product containers of different sizes. For instance, it is contemplated that in an embodiment the security device 18 may initially be utilized with a product container for a small electronic device, such as an MP3 player, and then later placed into a product container for a larger electronic device, such as a navigation system. In another embodiment, the security device is configured for use with a container or package used for holding gift cards, reusable credit cards, exchangeable cards, and the like. The product containers are designed to receive the security device 18, and thus the security device may be utilized with a variety of product containers.

The product container 10 may be made from a variety of materials including polymeric materials, paper, paperboard, cardboard, plastics, thermoplastics, and the like. The security device 18 and the printed circuit 24 allows materials such as paper, paperboard, and cardboard, etc. to be utilized even with more expensive products, as the alarm 54 of the security device 18 will activate if the product container 10 is tampered with in an effort to remove its content, reducing the likelihood of a thief stealing the contents of the product container 10. FIGS. 10-34, described below, illustrate examples of such embodiments.

Different types and/or shapes of security devices may be used (as compared to the one shown in FIG. 4) with a product package or container. One security device that can be used in an embodiment includes a base or elongate arm with a pin extending perpendicularly therefrom. The pin may be designed to be placed within or through an opening and secured by a head or button on an opposite side, for example. Generally, such security devices are known and therefore are not discussed in greater detail herein.

In accordance with an embodiment, for example, the security device 118A of FIG. 10 has an extended arm and a pin that extends through an opening in the package and is secured by being locked with the arm (e.g., via a slide under a top of the package). The extended arm may contain a security tag like security tag 48 (described above), a battery, a communication device (e.g., for wireless communication with another device), and/or other devices, features, or elements therein. Alternatively, such elements or features may be provided in a smaller button device, such as shown in the security device 118B of FIG. 11. The button may have a pin extending therefrom for insertion through an opening in the package 400. Furthermore, in this and in other security devices (e.g., see FIGS. 35-40), a processor (microprocessor), a printed circuit board (PCB), an audio device such as a speaker (for the alarm) and/or pin locking mechanisms can be used. Also, in embodiments, a security device can carry a transponder associated with an electronic article surveillance system (EAS) as used in retail environments (e.g. AM, RF, EM, or RFID).

In another embodiment, a pin can be activated, moved, or pushed from a housing of the security device and into the package. For example, FIGS. 35-40 show alternative embodiments of security devices 318, 358, and/or 388 for use with packages as disclosed throughout this disclosure. Any of the security devices 318, 358, and 388 can have one or more metal sprung contact(s) for an electrical connection with a printed circuit on a package (e.g., on an underside or inside of a package), in any number of forms. In an embodiment, a security device can have an arm for insertion into a predetermined opening or area of a package. In an embodiment, the arm can have a pointed end to pierce through shrink wrap or other materials around the package as it is entered. In some security devices, such as shown in the cross-sectional view of security device 388 in FIG. 40, a pin from the housing can be pushed down (e.g., via a button or push point) into the package (e.g., into another opening, such as after insertion into predetermined opening via its arm). The pin can be used to lock the security device in place on a package (e.g., substantially reduce and/or substantially prevent removal from accidentally being pulled off or dropping), and/or to activate the device, by switching it on, once connected with the circuit.

Accordingly, despite the configuration of the security device, even if it does not lock the package, its connection with the printed circuit on the package can stop a package from being opened by operation of an alarm from the connected security device, because breaking the circuit along any point of the package triggers the alarm.

The pin from any type of security device can be configured to be inserted through an opening or hole in a product package or container (e.g., see FIGS. 17 and 20). The security device cannot be removed by accident since the pin is secured and holds it in place. The security device is also connected to a printed circuit therein. Therefore, unauthorized removal of the security device from the product package activates the alarm or indicator, because the circuit would be interrupted and broken if the device or the wall(s) are torn. The predetermined opening or hole in the product package also helps in the positioning of the device itself.

In an embodiment, the movement of the pin into the predetermined opening or hole acts in effect as an ON/OFF switch for the security device. For example, the security device can have one or more spring electronic contacts (e.g., a first electrical contact and/or a second electrical contact) that will make contact with one or more contacts of the printed circuit printed on at least part of the inside of the package when it is inserted into and/or connected with the package. This also adds an advantage in that it allows for conservation of power relative to the security device in that, when it is not in use, it is turned off, resulting in a longer lasting life of the security device.

Moreover, the location for attachment of a security device is not limited. For example, in an embodiment, the security device may be removably attached to a predetermined opening on an outside of a product container or package for connection with a circuit. In some embodiments, only part of the security device is received in the predetermined opening. FIGS. 10 and 11 illustrate perspective views of alternate embodiments of a product package 400 in the form of a box (e.g., made of paperboard) with alternately shaped security devices 118A and 118B attached thereto. Though not all details are repeated here, it should be understood that security device 118A and/or 118B may have similar features as security device 18 (e.g., a battery, a processor, PCB, an alarm, a security tag, pins, and/or an insert). Also, any of example security devices 318, 358, and/or 388 may also include non-limiting features such as a battery, a processor, PCB, an alarm, a security tag, pins, and/or an insert as previously described.

In FIGS. 10 and 11, the security device 118A or 118B extends through and is secured to product package 400 via tab 402. In FIGS. 35, 37, and 39, the security devices are configured to include an arm or leg that extends at least partially into a predetermined opening in the package. In another embodiment, a tab for connecting the security device need not be provided. For example, an opening for the security device may be provided directly in an opening in one of the walls of the product package (e.g., see FIG. 28 or FIG. 29). The predetermined opening for receiving part of the security device (whether it is an opening, hole, or otherwise) need not be associated with the opening of the package (i.e., the opening to allow access to the contents therein, or a bottom opening) and/or its seam, but, rather it is associated with a location for connection with the printed circuit. This way, if breakage of the circuit along any point or any wall occurs, the security device and alarm can be activated. However, it should be noted that such designs as provided herein are not meant to be limiting.

The manufacture of product containers or packages shown herein is not meant to be limiting. A lid and a base made be formed using any number of techniques. Packages made from a paper based material, such as paperboard, cardboard, and the like, to form a box or similar shape, can be manufactured as a generally flat sheet, or “blank,” that is designed to be folded together and utilize flaps, tabs, adhesives, and/or cohesives in order to make the generally flat sheet into a product container. A circuit may be printed in such a product container that will interact with a security device as previously described. FIGS. 12-34 illustrate examples of such packages.

FIG. 12 illustrates one embodiment of a blank 401 with a printed circuit thereon that is configured for assembly to form a product package 400 (e.g., see FIGS. 13, 14, and 15) in accordance with an embodiment. Specifically, interior surfaces of each of the walls are shown in FIG. 12. The blank 401 is formed with a plurality of sidewalls 412, a bottom wall 415, and a top wall 414, which are designed to be folded along fold lines (shown as dashed lines) to form a package or enclosure with an opening for placing contents therein. At least a top wall 414 is pivotally attached to at least one other wall (e.g., a sidewall 412) to move between open and closed positions. When top wall 414 is open relative to the assembly, for example, it allows access to contents in the product package via an opening formed by side walls 412, and, when closed, it substantially prevents access to the contents therein.

Extending from one of the sidewalls 412 on either of its elongate sides are tabs 418 which are for attachment to other sidewalls 412 when assembled. For example, adhesive or glue may be applied to an outer or exterior surface of the tabs 418 and aligned with and attached to an interior surface of sidewalls 412. Adhesive in this or any of the herein described embodiments acts as a seal for areas of the package, when assembled, for example, so that the package cannot be simply opened or unfolded at these seams. Moreover, if someone tries to unfold the seams (after assembly) and applies force to overcome the seal of the adhesive, at least part of the associated wall (e.g., bottom or side) will tear and in the process destroy the circuit integrity in that area, thereby activating the alarm.

A tab 404 with an opening 405 or hole extends from a back sidewall 412 that is configured to align with tab 402 and its opening 403 or hole when the blank is assembled to form a product package and the top wall 414 is in a closed position. As shown by FIGS. 13, 14, and 15, once the package is assembled, the top wall 414 is configured to be moved between the open position and the closed position relative to the sidewalls 412. Openings 403 and 405 (and tabs 402 and 404) are aligned in the closed position and the security device (e.g., 118A) is adapted to cooperate with the product package 400 in its assembled form via insertion through aligned openings 403 and 405.

The product package 400 further comprises a printed circuit 424. The printed circuit 424 may be disposed on at least a portion of each of the interior surfaces of the top wall 414 and the sidewalls 412. For explanatory purposes only, the printed circuit 424 of FIGS. 13-15 appears to be shown on exterior surfaces of the package 400. This, however, is simply to show a location and extension of the printed circuit 424 on an interior of each of the walls when the package 400 is assembled. However, it should be noted that, in some embodiments, the printed circuit may additionally and/or alternatively be provided on exterior surfaces of any product package disclosed herein, such as described above, and thus should not be limited to either or both of the interior and exterior surfaces.

As seen on the blank 401 of FIG. 12, the printed circuit 424 is disposed at least partially on each of the interior surfaces of the top wall 414, the sidewalls 412, the bottom wall 415, as well as tabs 402 and 404. The printed circuit 424 is a continuous circuit that is formed from a conductive material, such as a metal or ink, and may printed directly on the blank 401. The printed circuit 424 can be provided in a pattern on the interior surfaces such that the printed circuit is interrupted and broken when at least one of the walls is ripped or torn. Providing the printed circuit 424 in a pattern on the sidewalls 412, bottom wall 415, and top wall 414, as well as each of the tabs 402, 404, and 418, increases the sensitivity of the security device, as the alarm of the security device 18 will be triggered if the printed circuit 424 on the walls is interrupted (e.g., if any one of the walls is ripped or torn or moved). For example, movement of the top wall 414 to the open position (when the security device is attached thereto) breaks the connection with printed circuit 424. Also, by bringing the circuit down to the bottom, if the bottom of the case is ripped, torn, or broken, it will in turn tear away part of the circuit as collateral damage, thereby breaking the circuit, and setting of the alarm.

Also, the printed circuit 424 extends to the openings 403 and 405 in the tabs 402 and 404 (respectively). The printed circuit 424 extends across the opening formed by sidewalls 412 such that in the closed position the printed circuit is connected and in the open position the printed circuit connection is broken. Insertion of a security device (e.g., its pin or contacts) through the aligned openings 403 and 405 of the tabs 402 and 404 enables contact between the connectors of the circuit and the security device for electrically connecting the printed circuit 424 to the security device 118. The printed circuit 424 is also not visible to the human eye when the package 400 is assembled.

FIG. 16 illustrates one embodiment of another blank 501 with a printed circuit 524 thereon configured to form a product container 500 (e.g., see FIGS. 17 and 18) in accordance with another embodiment. Specifically, interior surfaces of each of the walls are shown in FIG. 16. The blank 501 is formed with a plurality of sidewalls 512, a bottom wall 515 with a tab, and a top wall 514 with a tab 502, each of which are designed to be folded along fold lines (shown as dashed lines) to form a package or enclosure 500 with an opening for placing contents therein. At least a top wall 514 is pivotally attached to at least one other wall (e.g., a sidewall 512) to move between open and closed positions. When top wall 514 is open relative to the assembly, for example, e.g., see FIG. 18, it allows access to contents in the product package via an opening formed by side walls 512, and, when closed, it substantially prevents access to the contents therein.

Extending from one of the sidewalls 512 (e.g., rightmost sidewall, as shown in the Figure) is a tab 518 for attachment to another sidewall 512 (e.g., leftmost sidewall) when assembled. For example, adhesive or glue may be applied to an outer or exterior surface of the tab 518 and aligned with and attached to an interior surface of sidewall 512. Also, one or more sidewalls 512 may further include flaps 506 and/or 508. Flaps 506 and 508 can be moved to open or close off access to contents within the package 500 (see FIG. 18).

A tab 504 with an opening 505 or hole also extends from a sidewall 512 which is configured to align with tab 502 and its opening 403 or hole when the blank is assembled to form a product package 500 and the top wall 514 is in a closed position. As shown by FIGS. 17 and 18, once the package is assembled, the top wall 514 is configured to be moved between the open position (see FIG. 18) and the closed position (see FIG. 17) relative to the sidewalls 512. Openings 503 and 505 (and tabs 502 and 504) are aligned in the closed position and the security device is adapted to cooperate with the product package 500 in its assembled form via insertion through aligned openings 503 and 505.

The product package 500 further comprises a printed circuit 524 formed from a conductive material, such as a metal or ink, and may printed directly on the blank 501. The printed circuit 524 may be disposed on at least a portion of each of the interior surfaces of the top wall 514 and the sidewalls 512. The printed circuit 524 can be provided in a pattern on interior surfaces such that the printed circuit is interrupted and broken when at least one of the walls is ripped or torn. As seen on the blank 501 of FIG. 16, the printed circuit 524 is disposed at least partially on each of the interior surfaces of the top wall 514, the sidewalls 512, and tabs 502, 504 and flaps 508. Flaps 508 are provided with the printed circuit 524 as opposed to the bottom wall 515 because flaps 508 are provided on the inside relative to the back wall 515 (e.g., back wall 515 covers an exterior of flaps 508). Similarly, because top wall 514 covers flaps 506 when assembled, flaps 506 do not need to have printed circuit 524 thereon. However, it is also envisioned to be within the scope of this disclosure that any or each of the flaps 506 and 508, walls, and tabs (including 518) include the printed circuit 524 on at least an interior surface thereon.

Again, the location and pattern of the printed circuit 524 increases the sensitivity of the security device, as the alarm of the security device will be triggered if the printed circuit 524 on the walls is interrupted (e.g., if any one of the walls is ripped or torn or moved). For example, movement of the top wall 514 to the open position (when the security device is attached thereto) breaks the connection with printed circuit 524. Also, by bringing the circuit down to the bottom (via flaps 508), if the bottom of the case is ripped, torn, or broken, the parts can be pulled apart will in turn tear away the circuit as collateral damage, thereby breaking the circuit, and setting of the alarm. The printed circuit 524 is also not visible to the human eye when the package 500 is assembled.

Also, the printed circuit 524 extends to the openings 503 and 505 in the tabs 502 and 504 (respectively) and across the opening formed by sidewalls 512 such that in the closed position the printed circuit is connected and in the open position the printed circuit connection is broken. Insertion of a security device (e.g., its pin or contacts) through the aligned openings 503 and 505 of the tabs 502 and 504 enables contact between the connectors of the circuit and the security device for electrically connecting the printed circuit 524 to the security device 118.

FIG. 19 illustrates yet another embodiment of a blank 601 with a printed circuit 624 thereon configured to form a product container 600 (e.g., see FIGS. 20 and 21). Specifically, interior surfaces of each of the walls are shown in FIG. 19. The blank 601 is formed with a plurality of sidewalls 612, a bottom wall 615 with a tab, and a top wall 614 with a tab 602, each of which are designed to be folded along fold lines (shown as dashed lines) to form a package or enclosure 600 with an opening for placing contents therein. At least a top wall 614 is pivotally attached to at least one other wall (e.g., a sidewall 612) to move between open and closed positions. When top wall 614 is open relative to the assembly, for example, e.g., see FIG. 21, it allows access to contents in the product package via an opening formed by side walls 612, and, when closed, it substantially prevents access to the contents therein.

Extending from one of the sidewalls 612 (e.g., rightmost sidewall, as shown in the Figure) is a tab 618 for attachment to another sidewall 612 (e.g., leftmost sidewall) when assembled. For example, adhesive or glue may be applied to an outer or exterior surface of the tab 618 and aligned with and attached to an interior surface of sidewall 612. Also, one or more sidewalls 612 may further include flaps 606 and/or 608. Flaps 606 and 608 can be moved to open or close off access to contents within the package 600 (see FIG. 21). In an embodiment, flaps 606 each include a tab at the ends thereof. Tabs are folded inwardly to assist in closing off any contents in the package 600. More specifically, these tabs are configured to be folded along a fold line and aligned in a center of the opening when the flaps 606 are folded in for closing the package, for example.

A tab 604 with an opening 605 or hole also extends from a sidewall 612 when the blank is assembled to form a product package 600 and the top wall 614 is in a closed position. As shown by FIGS. 20 and 21, once the package is assembled, the top wall 614 is configured to be moved between the open position (see FIG. 21) and the closed position (see FIG. 18) relative to the sidewalls 612. The security device is adapted to cooperate with the product package 600 in its assembled form via insertion through opening 605.

The product package 600 further comprises a printed circuit 624 formed from a conductive material, such as a metal or ink, and may printed directly on the blank 601. The printed circuit 624 may be disposed on at least the sidewalls 612. The printed circuit 624 can be provided in a pattern on interior surfaces such that the printed circuit is interrupted and broken when at least one of the walls is ripped or torn. As seen on the blank 601 of FIG. 19, the printed circuit 624 is disposed at least partially on each of the interior surfaces of the sidewalls 612 as well as tab 604, and flaps 606 and 608. In this embodiment, flaps 606 and 608 are provided with the printed circuit 624 as opposed to the top wall 614 and/or bottom wall 615 because flaps 606, 608 are provided on the inside relative to those walls 614 and 615 (e.g., back wall 615 covers an exterior of flaps 608). Similarly, because top wall 614 covers an exterior of flaps 606 when assembled, flaps 606 do not need to have printed circuit 624 thereon. However, it is also envisioned to be within the scope of this disclosure that any or each of the flaps 606 and 608, walls, and tabs (including 618) include the printed circuit 624 on at least an interior surface thereon.

Also, it is noted in this illustrated embodiment that, when the product package 600 is assembled, the printed circuit 624 may be visible on the tab 604 (before adding the security device). The printed circuit 624 extends to the opening 605 in tab 602 and across the opening formed by sidewalls 612 via flaps 606 such that in the closed position the printed circuit is connected and in the open position the printed circuit connection is broken. Insertion of a security device (e.g., its pin or contacts) through the opening 605 enables contact between the connectors of the circuit and the security device for electrically connecting the printed circuit 624 to the security device 118.

The location and pattern of the printed circuit 624 on the walls increases the sensitivity of the security device, as the alarm of the security device will be triggered if the printed circuit 624 on the walls is interrupted (e.g., if any one of the walls is ripped or torn or moved). For example, movement of the flaps 606 or 608 to the open position (when the security device is attached thereto) or ripping thereof, or breaking of a side wall 612, breaks the connection with printed circuit 624. The printed circuit 624 on the interior surfaces is also not visible to the human eye when the package 600 is assembled.

In FIGS. 10-21, the security device or tag is configured to be attached to a tab that is attached to at least one wall of the product package. For example, the tab extends above the top wall when in its closed position on the outside of the product package. The security device or tag can be inserted through the predetermined opening as shown in FIGS. 10 and 11, for example. However, in other embodiments, such as represented by boxes 700 and 800 shown in FIG. 22, the security device can be inserted or slid into the product package, when assembled. For example, the predetermined opening for inserting the security device may be provided adjacent the opening of the package, with one of the walls of the package (not necessarily provided on a separate designated tab or flap).

For example, referring to the packages 700 and 800 in FIG. 22, a receiving opening 722 may be provided in at least one of the walls (such as sidewall 712) of the product package 700. Additionally and/or alternatively, there is shown a hole 802 in the top wall 814 of the product package 800. For example, the hole can be punched in the top so that it allows a pin from a security device to be inserted therethrough and locked with an arm or button underneath the top of the package. The security device cannot be removed by accident since the pin holds it in place. Therefore, unauthorized removal of the security device from the product package activates the alarm or indicator, because the circuit would be interrupted and broken if the device or the wall(s) are torn. The hole also helps the positioning of the device itself.

FIGS. 23 and 24 illustrates a first side (exterior) and a second side (interior) of blank 701 configured to form the product container 700 as shown in FIG. 22 and in FIG. 25. Exterior surfaces of one or more of the walls may include stickers, labels, or other product markings thereon, as shown in FIG. 23. The interior surfaces of each of the walls are shown in FIG. 24. The blank 701 is formed with a plurality of sidewalls 712, a top wall 714 with a tab 702, tabs 704 and 718, and a plurality of flaps 706 and 708, each of which are designed to be folded along fold lines (shown as dashed lines) to form a package or enclosure 700 with an opening for placing contents therein. At least a top wall 714 is pivotally attached to at least one other wall (e.g., a sidewall 712) to move between open and closed positions. When top wall 714 is open relative to the assembly, for example, e.g., see FIG. 25, it allows access to contents in the product package via an opening formed by side walls 712, and, when closed, it substantially prevents access to the contents therein.

Extending from one of the sidewalls 712 (e.g., rightmost sidewall, as shown in the Figure) is a tab 718 for attachment to another sidewall 712 (e.g., leftmost sidewall) when assembled. For example, adhesive or glue may be applied to an outer or exterior surface of the tab 718 and aligned with and attached to an interior surface of sidewall 712. Also, one or more sidewalls 712 may further include flaps 706 and/or 708 attached thereto. Flaps 706 and 708 can be moved to open or close off access to contents within the package 700 (like product package 800 in FIG. 22). In this embodiment, each sidewall 712 includes a bottom flap 708 and is configured to be secured (e.g., via folding and/or with adhesive) to form the bottom of the product package 700.

For example, in accordance with an embodiment, at least one flap 708 and/or area of a sidewall, e.g., leftmost sidewall 712 in FIG. 24, includes both adhesive and score lines thereon. The adhesive acts as a seal for these areas of the package, when assembled, for example, so that the package cannot be simply opened or unfolded at these seams. Moreover, if someone tries to unfold the seams (after assembly) and applies force to overcome the seal of the adhesive, at least part of the associated wall (e.g., bottom or side) will tear and in the process destroy the circuit integrity in that area, thereby activating the alarm. The addition of score lines in addition to adhesive in such seam areas (bottom, side) encourages tearing if the walls are tampered with by enhancing a weakness in the area and helps ensure a breakage of the circuit.

A tab 704 with an opening 705 or hole also extends from a sidewall 712 which is configured to align with an opening 703 or hole on top wall 714 when the blank is assembled to form a product package 700 and the top wall 714 is in a closed position. That is, openings 703 and 705 are aligned when the product package is in the closed position and the security device is adapted to cooperate with the product package 700 in its assembled form via insertion through aligned openings 703 and 705 (e.g., insertion of a pin therethrough to activate the tag in the security device and hold it in place).

Moreover, the product package 700 further includes a tab 702 with an alignment opening 720 that is configured to align with a receiving opening 722 on sidewall 712 when the top wall 714 is moved or hinged to the closed position. The tab 702 is folded along its fold line and inserted into a receiving area formed by slit 723 that is cut in tab 704 near an edge and adjacent a fold line. Tab 702 is adjacent sidewall 712 when inserted into the slit 723. Alignment opening 720 is aligned with receiving opening 722 in the closed position when assembled. This can assist in increasing the strength of the aperture designed to receive part of the security device (e.g., an arm of the security device, with the electrical contacts). Accordingly, the security device can additionally and/or alternatively be adapted to cooperate with the product package via insertion through the aligned openings 720 and 722. FIG. 39 shows an example of a security device 388 using two sets of aligned openings on a package, like package 700.

In an embodiment, openings 703 and 705 may not need to be provided. Moreover, no outside tab extending from the assembled package is required for receiving the security device.

The product package 700 further comprises a printed circuit 724 formed from a conductive material, such as a metal or ink, and may printed directly on the blank 701. The printed circuit 724 may be disposed on at least a portion of each of the interior surfaces of the top wall 714 and the sidewalls 712. The printed circuit 724 can be provided in a pattern on interior surfaces such that the printed circuit is interrupted and broken when at least one of the walls is ripped or torn. As seen on the blank 701 of FIG. 24, the printed circuit 724 is disposed at least partially on each of the interior surfaces of the top wall 714, the sidewalls 712, tabs 702, 704, and 718, and flaps 708.

The location and pattern of the printed circuit 724 increases the sensitivity of the security device, as the alarm of the security device will be triggered if the printed circuit 724 on the walls is interrupted (e.g., if any one of the walls is ripped or torn or moved). For example, movement of the top wall 714 to the open position (when the security device is attached thereto) breaks the connection with printed circuit 724. Also, by bringing the circuit down to the bottom (via at least one of the flaps 708), if the bottom of the case is ripped, torn, or broken, the parts can be pulled apart will in turn tear away the circuit as collateral damage, thereby breaking the circuit, and setting of the alarm. The printed circuit 724 is also not visible to the human eye when the package 700 is assembled.

Also, the printed circuit 724 is provided adjacent to the openings 703 and 705 and 720 and 722 in the tabs 702 and 704 and across the opening formed by sidewalls 712 such that in the closed position the printed circuit is connected and in the open position the printed circuit connection is broken. Insertion of a security device (e.g., its pin or contacts) through either of the aligned openings 703 and 705 or 720 and 722 enables contact between the connectors of the circuit and the security device for electrically connecting the printed circuit 724 to the security device 118.

FIGS. 26 and 27 illustrate a first side and a second side, respectively, of a blank 801, configured to form the product package 800, shown assembled in FIGS. 22 and 28. In a similar manner to the product package 700, exterior surfaces of one or more of the walls may include stickers, labels, or other product markings thereon, as shown in FIG. 26. The interior surfaces of each of the walls are shown in FIG. 27. The blank 801 is formed with a plurality of sidewalls 812, a top wall 814 with a tab 802, tabs 804 and 818, and a plurality of flaps 806 and 808, each of which are designed to be folded along fold lines (shown as dashed lines) to form a package or enclosure 800 with an opening for placing contents therein. At least a top wall 814 is pivotally attached to at least one other wall (e.g., a sidewall 812) to move between open and closed positions. When top wall 814 is open relative to the assembly, it allows access to contents in the product package via an opening formed by sidewalls 812, and, when closed, it substantially prevents access to the contents therein.

Extending from one of the sidewalls 812 (e.g., rightmost sidewall, as shown in the Figure) is a tab 818 for attachment to another sidewall 812 (e.g., leftmost sidewall) when assembled (e.g., via adhesive or glue, as described above). Sidewalls 812 include flaps 806 and 808 attached thereto. Flaps 806 and 808 can be moved to open or close off access to contents within the package 800. In this embodiment, each sidewall 812 includes a bottom flap 808 and is configured to be secured (e.g., via folding and/or with adhesive) to form the bottom of the product package 800.

In accordance with an embodiment, at least a part of a flap, e.g., part of bottom flap 810 and/or area of a sidewall, e.g., leftmost sidewall 812 in FIG. 27, includes both adhesive and score lines thereon. The adhesive acts as a seal for these areas of the package, when assembled, for example, so that the package cannot be simply opened or unfolded at these seams. Moreover, if someone tries to unfold the seams (after assembly) and applies force to overcome the seal of the adhesive, at least part of the associated wall (e.g., bottom or side) will tear and in the process destroy the circuit integrity in that area, thereby activating the alarm. The addition of score lines in addition to adhesive in such seam areas (bottom, side) encourages tearing if the walls are tampered with by enhancing a weakness in the area and helps ensure a breakage of the circuit.

A tab 804 with an opening 805 or hole also extends from a sidewall 812 which is configured to align with an opening 803 or hole on top wall 814 when the blank is assembled to form a product package 800 and the top wall 814 is in a closed position. That is, openings 803 and 805 are aligned when the product package is in the closed position (see FIG. 28) and the security device is adapted to cooperate with the product package 800 in its assembled form via insertion through aligned openings 803 and 805 (e.g., insertion of a pin therethrough to activate the tag in the security device and hold it in place).

Moreover, the product package 800 further includes a tab 802 with an alignment opening 820 that is configured to align with a receiving opening 822 on sidewall 812 when the top wall 814 is moved or hinged to the closed position. The tab 802 is folded along its fold line and inserted into a receiving area formed by slit 823 that is cut in tab 804 near an edge and adjacent a fold line. Tab 802 is adjacent sidewall 812 when inserted into the slit 823. Alignment opening 820 is aligned with receiving opening 822 in the closed position when assembled. This can assist in increasing the strength of the aperture designed to receive part of the security device (e.g., an arm of the security device, with the electrical contacts). Accordingly, the security device can additionally and/or alternatively be adapted to cooperate with the product package via insertion through the aligned openings 820 and 822. FIG. 39 shows an example of a security device 388 using two sets of aligned openings on a package, like package 800.

In an embodiment, openings 803 and 805 may not need to be provided. Moreover, no outside tab extending from the assembled package is required for receiving the security device.

The product package 800 further comprises a printed circuit 824 formed from a conductive material, such as a metal or ink, and may printed directly on the blank 801. The printed circuit 824 may be disposed on at least a portion of each of the interior surfaces of the top wall 814 and the sidewalls 812. The printed circuit 824 can be provided in a pattern on interior surfaces such that the printed circuit is interrupted and broken when at least one of the walls is ripped or torn. As seen on the blank 801 of FIG. 27, the printed circuit 824 is disposed at least partially on each of the interior surfaces of the top wall 814, the sidewalls 812, tabs 802, 804, and 818, and flaps 808.

The location and pattern of the printed circuit 824 increases the sensitivity of the security device, as the alarm of the security device will be triggered if the printed circuit 824 on the walls is interrupted (e.g., if any one of the walls is ripped or torn or moved). For example, movement of the top wall 814 to the open position (when the security device is attached thereto) breaks the connection with printed circuit 824. Also, by bringing the circuit down to the bottom (via each of the flaps 808), if the bottom of the case is ripped, torn, or broken, the parts can be pulled apart will in turn tear away the circuit as collateral damage, thereby breaking the circuit, and setting of the alarm. The printed circuit 824 is also not visible to the human eye when the package 800 is assembled.

Also, the printed circuit 824 is provided adjacent to the openings 803 and 805 and 820 and 822 in the tabs 802 and 804 and across the opening formed by sidewalls 812 such that in the closed position the printed circuit is connected and in the open position the printed circuit connection is broken. Insertion of a security device (e.g., its pin or contacts) through either of the aligned openings 803 and 805 or 820 and 822 enables contact between the connectors of the circuit and the security device for electrically connecting the printed circuit 824 to the security device 118.

FIG. 29 is a top view of yet another embodiment of a product package 900 having a security system. Product package 900 may be designed to house a gift card or reusable credit card, for example. Shown in FIG. 29 is an exterior (front) surface of a wall 914 which may include stickers, labels, or other product markings thereon. Wall 914 includes a display opening 902 that can be used to allow scanning or reading of a bar code, for example, on the card or contents therein.

FIGS. 30 and 31 illustrate a first (exterior) side and a second (interior) side, respectively, of a blank 901, configured to form the product package 900 of FIG. 29. The blank 901 is formed with a plurality of walls 912 and 914 that are connected to one another via a living hinge 920 so that they are configured to move relative to each other. For example, wall 914 may be a top wall that is configured to move relative to a bottom wall 912. Walls 912 and 914 contain contents therein. Walls 912 and 914 can be hinged between an open position allowing access to contents in the product package via an opening (e.g., see FIG. 31, walls 912 and 914 are away from each other and are disconnected) and a closed position, substantially preventing access to the contents therein by closing the opening (e.g., see FIG. 29, walls 912 and 914 are adjacent each other and connected to close off interior). For example, in an embodiment, the remaining sides, bottoms, and/or tops of the blank 901 may be provided with some sort of adhesive, glue, or the like so that when the walls 912 and 914 are folded together about hinge 920 and the open sides can be secured to close the opening. In another embodiment, although not expressly shown, the open sides, bottoms, and/or tops of the blank 90 may be formed to include complimentary sides that are configured to lock or snap together to close the opening.

Wall 912 has a hanging tab 906 with an opening 913 and wall 914 has a hanging tab 904 with a similarly shaped opening 910. The tabs 904 and 906 and openings 910 and 913 are configured to substantially align when the blank is assembled to form a product package 900 and the wall 914 is in a closed position. The aligned openings 910 and 913 allow for hanging of the package 800 on a hook or similar device for display.

Walls 912 and 914 also each include openings 905 and 903, respectively, which are also configured to be aligned when the product package is in the closed position (see FIG. 29). In an embodiment, the security device is adapted to cooperate with the product package 900 in its assembled form via insertion through aligned openings 903 and 905 (e.g., insertion of a pin therethrough). Insertion of a security device (e.g., its pin or contacts) through the aligned openings 903 and 905 enables contact between the connectors of the circuit and the security device for electrically connecting the printed circuit 924 to the security device 118.

Moreover, the product package 900 formed from blank 901 further includes a window opening 908 that allow access to the printed circuit when in the closed position for communication with a security device. Through closer observation of FIG. 31, for example, it can be seen that positive and negative contacts of the printed circuit 924 are provided on hanging tab 906 (above opening 905). When walls 912 and 914 are folded or hinged together, as shown in FIG. 29, the positive and negative contacts of the printed circuit are visible and reachable through window opening 908. This allows an external tag or security device easy access to complete the circuit. Accordingly, the security device can additionally and/or alternatively be adapted to cooperate with the product package via insertion through the window openings 908.

The product package 900 further comprises a printed circuit 924 formed from a conductive material, such as a metal or ink, and may printed directly on the blank 901. The printed circuit 924 may be disposed on at least a portion of each of the interior surfaces of the walls 912 and 914. The printed circuit 924 can be provided in a pattern on interior surfaces such that the printed circuit is interrupted and broken when at least one of the walls is ripped or torn or moved away from another. As seen on the blank 901 of FIG. 31, the printed circuit 924 is disposed at least partially on each of the interior surfaces of the walls 912 and 914, over the living hinge 920, and hanging tabs 904 and 906.

Also shown in FIG. 31 is a receiving area 922 in or on wall 912 configured to receive the card or contents therein to be held in the product package 900. The receiving area 922 may also include the printed circuit 924 thereon.

The location and pattern of the printed circuit 924 increases the sensitivity of the security device, as the alarm of the security device will be triggered if the printed circuit 824 on the walls is interrupted (e.g., if any one of the walls is ripped or torn or moved). For example, movement of the wall 914 to the open position (when the security device is attached thereto) breaks the connection with printed circuit 924. Also, by providing the circuit across at least a portion of the living hinge 920 and/or the tabs 904 and/or 906, if even part of the package is ripped, torn, or broken, the circuit will also be broken, and thus set off the alarm. The printed circuit 924 is also not necessarily visible to the human eye when the package 900 is assembled.

FIG. 32 shows a second (interior) side of a blank similar to blank 901 and configured to form a similar product package like package 900 shown in FIG. 29. Each of the parts described above with reference to FIGS. 30-31 are substantially similar and are therefore not repeated again. However, in this illustrated embodiment, the product package further includes a number of score lines 930 placed on the plurality of walls 912 and 914 and tabs 904 and 906. Score lines do not necessarily need to extend all of the way through the substrate (from the interior to the exterior). Score lines can provide a built in weakness in the walls and assist in tearing of the same. That is, they can increase the probability that the printed circuit will be broken if the walls are torn or moved. Accordingly, the printed circuit can be broken when at least one score line on one of the walls 912 or 914 or tabs 904 or 906 is severed. The scoring lines may be in the form of lines, dashes, dots, notches, etc. and are not limited to the illustrated design. In an embodiment, the score lines comprise perforations.

FIG. 33 shows a second (interior) side of a blank similar to blank 901 and configured to form a similar product package like package 900 shown in FIG. 29, with a different printed circuit pattern 1024 thereon. Each of the parts described above with reference to FIGS. 30-31 are substantially similar and are therefore not repeated again. Also, in this illustrated embodiment, the receiving area 922, configured to receive the card or contents in the product package 900, is provided in or on wall 914. The receiving area 922 may also include the printed circuit 924 thereon.

FIG. 34 illustrates the same package of FIG. 33 in accordance with another embodiment that includes a number of score lines 930 placed on the plurality of walls 912 and 914 and tabs 904 and 906.

The illustrated embodiments described herein are not meant to be limiting. Accordingly, it is in accordance with an embodiment herein to provide a product container or product assembly with a printed circuit connected to an interior surface of at least one wall thereof, including but not limited to, a top wall, a sidewall, a bottom wall, a tab, a lid portion, a base portion, and/or a hinge portion. A security device is configured to be removably connected to the container or package and in electrical communication with the printed circuit. The security device may be adapted to secure the product container or package in a closed position, but does not need to necessarily do so. The security device has an alarm adapted to provide an alert when conductivity of the printed circuit is broken. Moreover, any of the security devices can be used alone or in combination with another security device.

It is in accordance with another embodiment herein to provide a product container or product assembly with a printed circuit connected to an exterior surface of at least one wall thereof, including but not limited to, a top wall, a sidewall, a bottom wall, a tab, a lid portion, a base portion, and/or a hinge portion. A security device is configured to be removably connected to the container or package and in electrical communication with the printed circuit. The security device may be adapted to secure the product container or package in a closed position. The security device has an alarm adapted to provide an alert when conductivity of the printed circuit is broken.

Moreover, a blank that is configured for assembly that includes a printed circuit on either or both of its interior and exterior surfaces and that is configured for electrical communication with a security device that attaches to an assembled product package is also within the scope of this disclosure.

The features described with respect to each of the embodiments herein are not limited to those designs for which they are shown. For example, tabs, flaps, openings or holes, fold lines, score lines, and the like may be provided on and/or removed from any of the embodiments described herein. The circuit can be used on any material, including paper, cardboard, plastic, and/or a combination thereof, and does not rely on physical properties of the packaging material or a locking of the package itself. The circuit can be printed on the inside, outside, or both, of the containers or packages. Any number of methods (e.g., screening or lithography) or materials (e.g., conductive materials such as a metal (e.g., Aluminum, Copper) or other materials (e.g., Carbon) in a number of forms (e.g., inks) can be used to print the circuit on the container, package, or blank. Also, placement of and the pattern of the printed circuit may be altered and/or changed on the interior surfaces of the containers or packages without departing from the scope of this disclosure.

Further, the assembly of the product packages should be understood by one of ordinary skill in the art. For example, in some embodiments, blanks of the different packages can be partially assembled or adhered together for assembly, but flattened so that they can be packed for shipping (i.e., before objects or contents are placed therein). Also, in some embodiments, packages can be assembled, a product placed therein, closed, and then secured with shrink wrap or a similar product. The security device may be attached to a package (e.g., thorough a predetermined opening) after the package with the product therein is shrink-wrapped.

Accordingly, it should be clear that this disclosure provides examples of containers and packages wherein a printed circuit is provided thereon that is configured for cooperation with a security tag or device that monitors the integrity of the circuit. If the circuit is broken, the alarm (associated with the security device) is activated.

Moreover, the attachment of the security device or tag may be placed in any number of places on the package in communication with the printed circuit. As evident by the examples in the Figures, the security device does not necessarily need to be inserted at a seam or at a point of opening or closure, but rather a point that allows for connection and completion of a circuit, so that if the printed circuit is broken at any point on the package, the alarm associated with the security device is triggered.

While the principles of the disclosure have been made clear in the illustrative embodiments set forth above, it will be apparent to those skilled in the art that various modifications may be made to the structure, arrangement, proportion, elements, materials, and components used in the practice of the disclosure.

It will thus be seen that features of this disclosure have been fully and effectively accomplished. It will be realized, however, that the foregoing preferred specific embodiments have been shown and described for the purpose of illustrating the functional and structural principles of this disclosure and are subject to change without departure from such principles. Therefore, this disclosure includes all modifications encompassed within the spirit and scope of the following claims.

PRODUCT CONTAINER ASSEMBLY HAVING A SECURITY DEVICE

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