Cartons or other paperboard containers may be used for holding and storing items. In some implementations, the items held or stored in the containers may be harmful to certain users, such as children (e.g., a pharmaceutical drug, tobacco, etc.). A user may desire to hold or store items in a lockable, child-resistant container. At least some known methods for manufacturing cartons or other paperboard containers merely include inserting the items into the container, applying glue to at least one flap of the container, and folding the flap such that the glue adheres the flap to another portion of the container to form and hold the container in a predetermined container shape. However, merely gluing the flaps of the containers may manufacture a container that is easily accessed by tearing the flaps of the contain and certain users, such as children, may be able to access the items in the container.
The technology disclosed herein includes an environmentally friendly, re-lockable packaging apparatus comprising an outer sleeve, an inner sleeve, and at least one locking mechanism configured to lock the inner sleeve inside the outer sleeve, wherein a locking tab of the inner sleeve connected to a bottom panel of the inner sleeve is configured to move from a position in between and substantially parallel to the bottom panel of the inner sleeve and a middle panel of the outer sleeve to an angled position protruding into a first area of the outer sleeve proximate to a bottom panel of the outer sleeve and adjacent to the middle panel of the outer sleeve, and engage a locking ridge located on an end of the middle panel of the outer sleeve. The edge of the locking ridge and edge of the locking tab of the inner sleeve may be arc-shaped and the edge of the locking ridge and edge of the locking tab of the inner sleeve may be configured to oppose one another to form the first locking mechanism.
In some implementations, technology disclosed herein includes a method of manufacturing a packaging apparatus including an outer sleeve and an inner sleeve. The method includes assembling the outer sleeve using a first folder/gluer. The outer sleeve comprises a first glue lap and a bottom panel. Assembling the outer sleeve includes applying at least two glue lines on the first glue lap. Assembling the outer sleeve also includes folding the first glue lap onto the bottom panel such that the at least two glue lines adhere the first glue lap to the bottom panel. The first glue lap and the bottom panel form a locking ridge. The method also includes assembling the inner sleeve using a second folder/gluer. The inner sleeve comprises a locking tab configured to interface the locking ridge of the outer sleeve to secure the inner sleeve within the outer sleeve. The locking ridge and the locking tab at least partially define a locking mechanism. The method further includes assembling the packaging apparatus by inserting the inner sleeve into the outer sleeve.
In some implementations, technology disclosed herein includes a method of manufacturing a packaging apparatus including an outer sleeve. The method includes assembling the outer sleeve using a first folder/gluer. The outer sleeve comprises a first glue lap and a bottom panel. Assembling the outer sleeve includes applying at least two glue lines on the first glue lap and folding the first glue lap onto the bottom panel such that the at least two glue lines adhere the first glue lap to the bottom panel. The first glue lap and the bottom panel form a locking ridge of a locking mechanism.
These and various other features and advantages will be apparent from a reading of the following Detailed Description.
In the following description, for the purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. For example, while various features are ascribed to particular implementations, it should be appreciated that the features described with respect to one implementation may be incorporated with some implementations as well. Similarly, however, no single feature or features of any described implementation should be considered essential to the invention, as some implementations of the invention may omit such features.
For purposes of this disclosure, the term “substantially parallel” refers to a position wherein a tab lies sufficiently flat in relation to a first surface in an effort to slide between the first surface and a second surface opposing the first surface. For example, in some implementations, “substantially parallel” may be 0°-5° from the first surface.
For purposes of this disclosure, the term “locking” refers to a position wherein a tab is caught or latched onto another surface in an effort to prevent movement and create a locking mechanism as the tab is trapped in the latched position. For example, in some implementations, “locking” may mean a tab, for example, is prevented from movement because the tab is fighting against another surface when it is being pulled against the surface.
The disclosed technology includes packaging apparatuses configured to lock internally. In some implementations, the packaging apparatus may have a storage compartment, or an insert containing a compartment to hold, store, and secure an item. The packaging apparatus are child-resistant, easy to manufacture, and easy to use. In some implementations, the packaging apparatus are environmentally friendly and made of paperboard and have folding capabilities to reduce packaging. In some implementations, the packaging apparatus may be tamper-evident and/or senior-friendly. The packaging apparatus include panels, tabs, flaps, and apertures that may have various shapes (e.g., oval, rectangular, circular, etc.) depending on the intended use and manufacturing requirements (e.g., auto-erecting walls requirements). The panels, tabs, flaps, apertures, and other components of the packaging apparatus may have different locations in the packaging apparatus than what is shown in the figures. For example, a panel or tab may be moved in a packaging apparatus to accommodate better functioning of one of the disclosed locking mechanisms.
In some implementations, the panels, tabs, flaps, apertures, and other components of the packaging apparatus may have memory properties. Specifically, a locking tab may be able return to an original pre-bended shape or position after the locking tab is pressed in a certain direction. For example, if a paperboard locking tab has memory properties and is attached and extending from an end of a panel, and the paperboard locking tab is moved (or bended) around the end of the panel to be positioned substantially parallel on the panel and released, the locking tab will attempt to return or return to its original pre-bent shape or position.
Method 100 includes assembling 700 the outer sleeve 202 (shown in
When in the packaging apparatus 200 is in a closed position, the packaging apparatus 200 is locked, where the inner sleeve 204 is locked inside the outer sleeve 202. To open the packaging apparatus 200, a user can press downward on a locking tab 216 on the inner sleeve 204 that is accessible via the aperture 208. When the locking tab 216 on the inner sleeve 204 is pressed downward, the locking tab 216 on the inner sleeve 204 moves and disengages from a locking ridge located on an interior middle panel (or glue lap) of the outer sleeve (shown and described in detail in
As shown in
In some implementations, the packaging apparatus 200 may have a second locking mechanism (described in detail in
Referring to
The inner sleeve 204 has an inner sleeve compartment 214 located in a top panel 230 which acts as a storage compartment for holding items in place and for storing items in the outer sleeve 202. The inner sleeve compartment 214 can vary in design, size, and shape depending on the design and use of the packaging apparatus 200, as well as the required design for desired items to be stored in the outer sleeve 202. For example, the inner sleeve compartment 214 may be designed to securely hold vials, bottles, a vape cartridge, electronic cigarettes, food products, other objects, etc. in place. In some implementations, there may be multiple compartments. The inner sleeve compartment 214 may be defined by a number of panels configured in a single sheet of stock or packaging that makes up the inner sleeve 204 (shown and described in
Specifically, the compartment panels (top compartment panels, a compartment bottom panel, compartment side panels, and a middle panel of the inner sleeve) are located adjacent to exterior inner sleeve panels in a sheet of stock and configure to make the inner sleeve compartment 214. The compartment panels can form side walls, a top panel of the inner sleeve compartment 214, and a bottom panel of the inner sleeve compartment 214 that are positioned over the middle panel of the inner sleeve. Once the inner sleeve compartment 214 is constructed, the two compartment side panels form partitions in the inner sleeve 204 that form three tube-like compartments that run the length of the inner sleeve as well as add two additional walls in the inner sleeve 204 for added structural integrity. One of the tube-like compartments becomes the inner sleeve compartment and the other two tube-like compartments are not accessible from the outside of the packaging apparatus. In some implementations, the inner sleeve does not have an end panel and the three compartments are open, to conserve on packaging material. This open end of the inner sleeve faces inside the outer sleeve when the inner sleeve is inserted into the outer sleeve.
Contents or storage items are stored in the inner sleeve compartment 214. In some implementations, contents may be kept in place by a perforated top panel (e.g., see perforated top panel 368 in
In some implementations, there may be one or more aperture located in the top panel(s) 468 to receive a storage item to further secure it in place in the inner sleeve compartment 214. The top panel(s) 468 may be configured to move down into the inner sleeve compartment adjacent to the inner compartment sidewalls 476a and 476b, and in some implementations, contacting a bottom panel of the compartment 484.
The components of the packaging apparatus 200 can comprise of one or more materials (i.e., paperboard, wax paper, aluminum foil, cellophane, plastic, thermoformed plastic material such as polystyrenes, polypropylenes, polyethylenes, polyethylene terephthalates, polyvinyl chloride polystyrenes, polyvinylydene chlorides, fluoride resins, polycarbonates, polyamides, polyphenylene oxides, and combinations thereof, etc.), and of varying measurements, depending on the storage requirements for the storage items. For example, in some implementations, all of the packaging apparatus 200 may be paperboard of varying thickness. In some implementations, the interior walls of the outer sleeve 202 may have a lining or tray made of a material different than the outer sleeve 202. For example, the outer sleeve 202 may be made of paperboard, and a lining on the interior walls of the outer sleeve 202 may be plastic or another material that cannot be ripped or torn, reinforcing the child-resistant nature of the packaging apparatus 200. Or, in another implementation, the inner sleeve 204 may be made of both a plastic material and a paperboard material to provide additional durability.
In some implementations, the packaging apparatus may include silicone to minimize the risk of moisture build-up, or parchment paper if storage items are sticky, or other materials which may provide an airtight or moisture-free environment or prevent freezing or other temperature change. Other materials are contemplated that prevent against moisture and humidity, direct light, sources of heat, contamination, mildew or mold, and bugs.
In some implementations, scoring of the components may allow for memory, and different thicknesses of material may be used for rigidity. In some implementations, plastic laminate may be included in the packaging apparatus so that the packaging is tear-proof.
In some implementations, the packaging apparatus includes at least one additional interior locking mechanism (described in detail in
A first layer of adhesive 436 of the outer sleeve 402 is shown as applied to a first glue lap 492, an interior panel of the outer sleeve 402. A “glue lap” may be referred to as a packaging panel or extra stock in which glue or other adhesive is applied in order to attach the glue lap to another panel or surface in the packaging apparatus 400. Glue laps may be added to packaging for various reasons, including for extra reinforcement to packaging, to create compartments, and to act as locking mechanisms. For purposes of this disclosure, a glue lap may also be defined as a particular panel. For example, the first glue lap 492 is also the middle panel in the outer sleeve 402. As described below, during assembly, the first glue lap 492 folds onto the bottom panel 412 of the outer sleeve 402 and the first layer of adhesive 436 of the outer sleeve 402 seals the first glue lap 492 onto the interior surface of the bottom panel of the outer sleeve 412. As shown in the figures and described herein, a “layer of adhesive” is depicted as where the layer of adhesive is applied on a given panel of the single sheet of packaging material, and the area upon which the panel will seal to another panel or packaging surface.
In the illustrated embodiment, the first layer of adhesive 436 of the outer sleeve 402 includes at least two glue lines 481. More specifically, in the illustrated embodiment, the first layer of adhesive 436 of the outer sleeve 402 includes at least three glue lines 481. The glue lines 481 include a first glue line 483, a second glue line 485, and a third glue line 487 and the glue lines 481 each have a glue line length 489. Additionally, a first glue line distance 491 is defined as the distance between the first glue line 483 and the second glue line 485, and a second glue line distance 493 is defined as the distance between the second glue line 485 and the third glue line 487. Moreover, the first glue lap 492 includes a first portion 495 and a second portion 497 each having a glue lap length 499. The first glue lap length 499 of the first portion 495 is longer than the first glue lap length 499 of the second portion 497 such that the second portion 497 defines a locking ridge or edge 422 as described below.
The first glue line 483 is positioned on the first portion 495 and the second glue line 485 and the third glue line 487 are positioned on the second portion 497. The glue line length 489 of the first glue line 483 is substantially equal to the first glue lap length 499 of the first portion 495 such that the first glue line 483 extends from end-to-end of the first portion 495. Additionally, the glue line lengths 489 of the second glue line 485 and the third glue line 487 are substantially equal to the first glue lap length 499 of the second portion 497 such that the second glue line 485 and the third glue line 487 extend from end-to-end of the second portion 497. In the illustrated embodiment, the first glue lap length 499 of the first portion 495 is about 9.0 centimeters (cm) to about 14.3 cm, the first glue lap length 499 of the second portion 497 is about 7.0 cm to about 12.1 cm, the glue line length 489 of the first glue line 483 is about 8.6 cm to about 13.9 cm, the glue line length 489 of the second glue line 485 is about 6.7 cm to about 11.8 cm, and the glue line length 489 of the third glue line 487 is about 6.7 cm to about 11.8 cm. In alternative embodiments, the first glue lap length 499 of the first portion 495, the first glue lap length 499 of the second portion 497, the glue line length 489 of the first glue line 483, the glue line length 489 of the second glue line 485, and the glue line length 489 of the third glue line 487 may be any length that enables the packaging apparatus 200 to operate as described herein.
Additionally, the first glue line distance 491 and the second glue line distance 493 are arranged such that the first, second, and third glue lines 483 are spaced evenly across the first glue lap 492. Specifically, in the illustrated embodiment, the first glue line distance 491 is substantially equal to the second glue line distance 493. In alternative embodiments, the first glue line distance 491 is greater than the second glue line distance 493 or the second glue line distance 493 is greater than the first glue line distance 491. In the illustrated embodiment, the length of the first glue line distance 491 and the second glue line distance 493 are about 1.6 cm to about 1.9 cm. In alternative embodiments, the length of the first glue line distance 491 and the second glue line distance 493 may be any length that enables the packaging apparatus 200 to operate as described herein.
The glue lines 481 are configured to strengthen the outer sleeve 202 and improve the child resistance of the packaging apparatus 200. Specifically, a typical packaging system would typically only include the first glue line 483 positioned on the first portion 495. The outer sleeve 202 described herein further includes the second glue line 485 and the third glue line 487 to strengthen the bond between the first glue lap 492 and the interior surface of the bottom panel of the outer sleeve 412. The first glue lap 492 of the outer sleeve 202 is wider than typical packaging flaps and the glue lines 481 provide additional adhesion between the bottom panel 412 of the outer sleeve 202 and the first glue lap 492 of the outer sleeve 202. Thus, the shape of the first glue lap 492 of the outer sleeve 202 and the glue lines 481 strengthen the outer sleeve 202 and improve the child resistance of the packaging apparatus 200.
Additionally, in the illustrated embodiment, the first glue lap 492 includes two ovals 471 printed on the first glue lap 492 that indicate where the second glue line 485 and the third glue line 487 are to be dispensed on the first glue lap 492. The ovals 471 enable an operator to quickly check whether a folder/gluer 1000 (illustrated in
The locking tab of the outer sleeve 418 is connected to an end of the bottom panel of the outer sleeve 412. The locking tab of the outer sleeve 418 has memory properties. During use of the packaging apparatus 400, the locking tab of the outer sleeve 418 may be moved inside the outer sleeve 402 to form part of a second locking mechanism when the inner sleeve 404 is moved from the outer sleeve 402 (described in detail in
A reinforcement panel of the outer sleeve 438 may also be folded into the interior of the outer sleeve 402. In some implementations, the reinforcement panel of the outer sleeve 438 is glued against the top panel outer sleeve 448. The reinforcement panel of the outer sleeve 438 wraps around the end of the outer sleeve so that the edges of the outer sleeve 402 are rounded (rather than square), which prevents tampering of the packaging apparatus.
Dust flaps 446a and 446b are located adjacent to the side panels 420a and 420b. As shown, the dust flaps 446a and 446b have cut-outs for die-cutting to provide for clearance with adjacent panels and to decrease any gap size between panels once the end panels are folded during assembly.
To assemble the outer sleeve 402, the first glue lap of the outer sleeve 492 is folded into the outer sleeve 402, where the first glue lap of the outer sleeve 492 is located opposite the top panel of the outer sleeve 448 and the side panel 420b forms one side to the outer sleeve 402. The bottom panel of the outer sleeve 412 is folded on top of the first glue lap of the outer sleeve 492 attaching via the first adhesive of the outer sleeve 436. The side panel 420a forms a second side to the outer sleeve 402. The side panels 420a and 420b are perpendicular to the first glue lap of the outer sleeve 492, the bottom panel of the outer sleeve 412, and the top panel of the outer sleeve 448.
Once the outer walls (e.g., top panel of the outer sleeve 448, bottom panel of the outer sleeve 412, side panels 420a and 420b, and the first glue lap of the outer sleeve 492) are assembled, the dust flaps 446a and 446b are folded inside the outer sleeve 402, and a first end flap 440 is folded to close an end of the outer sleeve 402. A second glue lap 442 may be folded onto the first end flap 440 and secured to the first end flap 440 with a second layer of adhesive of the outer sleeve 444. The dust flap 446a and 446b, fourth flap 440, and second glue lap 442, in combination together, create a “dog-eared tuck” located on the end of the outer sleeve 402, which is a permanently fixed and child-resistant end of the packaging, which requires tearing to open the packaging apparatus 400 once it is closed and locked.
The locking ridge or edge 422 is configured on the first glue lap 492. A locking ridge or edge 422 is an edge located on the end of the first glue lap 492 proximate to the bottom panel of the outer sleeve 412. Once the packaging apparatus 400 is assembled, after the inner sleeve 404 is inserted into the outer sleeve 402, and during use, the packaging apparatus is in a closed configuration. A locking tab of the inner sleeve 416 can latch, engage, or otherwise “lock” onto the locking ridge 422 and lock the inner sleeve 404 inside the outer sleeve 402 (described in more detail below). When the locking tab of the inner sleeve 416 of the inner sleeve 404 has latched onto the locking ridge 422, a user is prevented from pulling the inner sleeve 404 out of the outer sleeve 402.
A top panel of the inner sleeve 430 is shown with the bottom panel of the inner sleeve 432 with two side panels 472a and 472b. The bottom panel of the inner sleeve 432 is shown with a first adhesive of the inner sleeve 470 located on an end. The inner sleeve 404 has a pull tab 406, and an end panel of the inner sleeve 486. A locking tab of the inner sleeve 416 is shown attached to the end of the bottom panel of the inner sleeve 432. The reinforcement panel of the inner sleeve 428 is shown attached to an end panel of the inner sleeve 486, which is attached to the top panel of the inner sleeve 430. A compartment panel 468 is located in the top panel of the inner sleeve 430.
The side panel of the inner sleeve 472b is connected to components that make up the inner compartment 214, shown in
The compartment side panel 476a is connected to components compartment top panels 480a and 480b, which are separated from each other by a compartment aperture 490. Third layers of adhesive of the inner sleeve 478a and 478b are located on top of the two compartment top panels 480a and 480b, respectively. The two compartment top panels 480a and 480b are attached to a compartment side panel 476b, which is attached to a bottom panel of the compartment 484. A fourth layer of adhesive of the inner sleeve 482 is located on the bottom panel of the compartment 484.
When assembled, an inner sleeve compartment (e.g., inner sleeve compartment 214 shown in
The bottom panel of the inner sleeve 432 folds and seals onto middle panel of the inner sleeve 488 via a second adhesive of the inner sleeve 474.
The tab or dust flap 446 is then folded in toward the inside of the inner sleeve 404 and the end panel 486 of the inner sleeve 432 wraps around the tab 446. The reinforcement panel of the inner sleeve 428 wraps around to the exterior surface of the bottom panel of the inner sleeve attaching and sealing to the first layer of adhesive of the inner sleeve 470, sealing the end of the inner sleeve 404. The reinforcement panel of the inner sleeve 428 wraps around the end of the inner sleeve 404 so that the edges of the closed end of the outer sleeve 402 are rounded (rather than square), which prevents tampering of the packaging apparatus.
As shown in
In a step 556, the inner sleeve 504 is shown entirely inserted into the outer sleeve 502 in a locked position. The locking tab on the inner sleeve 516, which has moved past the first glue lap 536 of the outer sleeve 504, springs into an area (shown in greater detail in
In a step 558, the inner sleeve 504 is shown entirely inserted into the outer sleeve 502 in an unlocked position. Specifically, a user can apply pressure to the locking tab on the inner sleeve 516 by inserting either a thumb, finger, key, or other instrument through the aperture 508 located in the bottom panel 512 of the outer sleeve 502 and push the locking tab on the inner sleeve 516 upward into the interior of outer sleeve 502 past the locking edge 522.
Once the locking tab on the inner sleeve 516 clears the locking edge 522, the inner sleeve 502 can be pulled by the pull tab 506 from the outer sleeve 502, opening the packaging apparatus 500. As shown in step 560, the inner sleeve 504 is shown partially pulled out of the outer sleeve 502 in an unlocked position. A user can access contents inside the inner sleeve 504 when the inner sleeve is partially pulled out of the outer sleeve 502.
As the user continues to pull the inner sleeve 504 from the outer sleeve 502, the locking tab on the inner sleeve 516, which is facing in a direction opposite the direction that the locking tab of the outer sleeve 518 is facing, catches on the locking tab of the outer sleeve 518. Specifically, the end of the locking tab 516 slides in between the locking tab of the outer sleeve 518 and the middle panel of the outer sleeve 592 and hooks proximate to the interface where the end of the locking tab of the outer sleeve 518 is connected to the bottom panel of the outer sleeve 512 and adjacent to the middle panel of the outer sleeve 592. As a result, the opposing locking tabs lock against each other, and the inner sleeve 504 is prevented from being entirely pulled out of the outer sleeve 502. The inner sleeve 504 is shown partially pulled out of the outer sleeve 502 in a locked position in a step 562.
To unlock the packaging apparatus 600, a user presses down on the locking tab of the inner sleeve 616 via the aperture 608 and pushes the locking tab 616 into the outer sleeve, disengaging the locking tab of the inner sleeve 616 from the locking edge 622. The inner sleeve can then be pulled from the outer sleeve by the pull tab 606.
Referring to
Next, the precut cartons of the outer sleeve 202 are conveyed by the conveyor 1002 to a prebreak station (not shown) and assembling 700 the outer sleeve 202 also includes prebreaking 704 the precut cartons of the outer sleeve 202. The precut cartons of the outer sleeve 202 may include a plurality of scores, cuts, and/or prefolds that enable the precut cartons of the outer sleeve 202 to be folded along predetermined lines such that the precut cartons of the outer sleeve 202 may be folded and glued into a predetermined shape illustrated in
Next, in the illustrated embodiment, the precut cartons of the outer sleeve 202 are conveyed by the conveyor 1002 to a label application station 1006 and assembling 700 the outer sleeve 202 also includes applying 706 a label (not shown) to the precut cartons of the outer sleeve 202. In the illustrated embodiment, the label includes a holographic label that indicates the authenticity of the items stored in the contents of the packaging apparatus 200. In some industries, counterfeiters are producing knockoff products in packaging the resembles the packaging of the original product. Some manufacturers are marking their products with holographic labels that are difficult to counterfeit to indicate the authenticity of the products within the packaging apparatus 200. In alternative embodiments, the label may be a non-holographic label rather than a holographic label. In another alternative embodiment, the folder/gluer 1000 may not include a label station and assembling 700 the outer sleeve 202 may not include applying 706 a label (not shown) to the precut cartons of the outer sleeve 202.
As shown in
Next, in the illustrated embodiment, the precut cartons of the outer sleeve 202 are conveyed by the conveyor 1002 to an unfolding/folding station (not shown) and assembling 700 the outer sleeve 202 also includes unfolding/folding 708 the precut cartons of the outer sleeve 202. In the illustrated embodiment, the precut cartons of the outer sleeve 202 are unfolded from the label application orientation into a glue application orientation. In alternative embodiments, the unfolding/folding station (not shown) may fold and unfold the precut cartons of the outer sleeve 202 into any orientation that enables assembling 700 the outer sleeve 202 as described herein.
Next, the precut cartons of the outer sleeve 202 are conveyed by the conveyor 1002 to a glue application station (not shown) and assembling 700 the outer sleeve 202 also includes applying 710 glue to the precut cartons of the outer sleeve 202. In the illustrated embodiment, the glue application station (not shown) includes at least one nozzle (not shown) that applies glue to a portion of the outer sleeve 202. Specifically, in the illustrated embodiment, the glue application station (not shown) includes three nozzles (not shown) that apply glue to the first glue lap 492 of the outer sleeve 202. The three nozzles apply three lines of glue to the first glue lap 492 of the outer sleeve 202. Additionally, the first glue lap 492 of the outer sleeve 202 is wider than typical packaging flaps and the three lines of glue provide additional adhesion between the bottom panel 412 of the outer sleeve 202 and the first glue lap 492 of the outer sleeve 202. Thus, the shape of the first glue lap 492 of the outer sleeve 202 and the additional lines of glue strengthen the outer sleeve 202 and improve the child resistance of the packaging apparatus 200. In alternative embodiments, the glue application station may include any number of nozzles and the nozzles may be configured to apply any number of glue lines that enable assembling 700 the outer sleeve 202 as described herein.
Next, the precut cartons of the outer sleeve 202 are conveyed by the conveyor 1002 to a folding station (not shown) and assembling 700 the outer sleeve 202 also includes folding 712 the precut cartons of the outer sleeve 202. In the illustrated embodiment, the precut cartons of the outer sleeve 202 are folded such that the first glue lap 492 of the outer sleeve 202 and the three glue lines on the first glue lap 492 of the outer sleeve 202 are in contact with the bottom panel 412 of the outer sleeve 202. In alternative embodiments, the folding station (not shown) may fold the precut cartons of the outer sleeve 202 into any orientation that enables assembling 700 the outer sleeve 202 as described herein.
Next, the precut cartons of the outer sleeve 202 are conveyed by the conveyor 1002 to a pressure application station (not shown) and assembling 700 the outer sleeve 202 also includes applying pressure 714 to the precut cartons of the outer sleeve 202. In the illustrated embodiment, the pressure is applied to the precut cartons of the outer sleeve 202 are folded such that the first glue lap 492 of the outer sleeve 202 and the three glue lines 481 on the first glue lap 492 of the outer sleeve 202 are in contact with the bottom panel 412 of the outer sleeve 202. In alternative embodiments, the folding station (not shown) may fold the precut cartons of the outer sleeve 202 into any orientation that enables assembling 700 the outer sleeve 202 as described herein.
Finally, the precut cartons of the outer sleeve 202 are conveyed by the conveyor 1002 to a packaging station (not shown) and assembling 700 the outer sleeve 202 also includes packaging 716 the precut cartons of the outer sleeve 202 into a tray (not shown). In the illustrated embodiment, the precut cartons of the outer sleeve 202 are packaged into the tray and transported to assembling 900 the packaging apparatus 200. In alternative embodiments, the packaging station (not shown) may package the precut cartons of the outer sleeve 202 into any container that enables assembling 700 the outer sleeve 202 as described herein.
Referring to
Next, the precut cartons of the inner sleeve 204 are conveyed by the conveyor 1202 to a prebreak station (not shown) and assembling 800 the inner sleeve 204 also includes prebreaking 804 the precut cartons of the inner sleeve 204. The precut cartons of the inner sleeve 204 may include a plurality of scores, cuts, and/or prefolds that enable the precut cartons of the inner sleeve 204 to be folded along predetermined lines such that the precut cartons of the inner sleeve 204 may be folded and glued into a predetermined shape illustrated in
Next, optionally, the precut cartons of the inner sleeve 204 may be conveyed by the conveyor 1202 to a label application station (not shown) and assembling 800 the inner sleeve 204 may also include applying 806 a label (not shown) to the precut cartons of the inner sleeve 204. In the illustrated embodiment, the label may be a holographic label that indicates the authenticity of the items stored in the contents of the packaging apparatus 200. In some industries, counterfeiters are producing knockoff products in packaging the resembles the packaging of the original product. Some manufacturers are marking their products with holographic labels that are difficult to counterfeit to indicate the authenticity of the products within the packaging apparatus 200. In alternative embodiments, the label may be a non-holographic label rather than a holographic label. The folder/gluer 1200 may not include a label station and assembling 800 the inner sleeve 204 may not include applying 806 a label (not shown) to the precut cartons of the inner sleeve 204.
If the label application station is included in the folder/gluer 1200, the label application station is attached to the conveyor 1202 such that the label application station automatically applies a label to the inner sleeve 204. Specifically, the label application station may include a plurality of brackets (not shown) that attach the label application station to the conveyor 1202 and position the label application station relative to the conveyor 1202 such that the label application station automatically receives and applies a label to the inner sleeve 204. The label application station may also include a plurality of plates (not shown) that rapidly present the inner sleeve 204 for label application.
Next, in the illustrated embodiment, the precut cartons of the inner sleeve 204 are conveyed by the conveyor 1202 to an unfolding/folding station (not shown) and assembling 800 the inner sleeve 204 also includes unfolding/folding 808 the precut cartons of the inner sleeve 204. In the illustrated embodiment, the precut cartons of the inner sleeve 204 are unfolded from the label application orientation into a glue application orientation. In alternative embodiments, the unfolding/folding station (not shown) may fold and unfold the precut cartons of the inner sleeve 204 into any orientation that enables assembling 800 the inner sleeve 204 as described herein.
Next, the precut cartons of the inner sleeve 204 are conveyed by the conveyor 1202 to a glue application station (not shown) and assembling 800 the inner sleeve 204 also includes applying 810 glue to the precut cartons of the inner sleeve 204. In the illustrated embodiment, the glue application station (not shown) includes at least one nozzle (not shown) that applies glue to a portion of the inner sleeve 204.
Next, the precut cartons of the inner sleeve 204 are conveyed by the conveyor 1202 to a folding station (not shown) and assembling 800 the inner sleeve 204 also includes folding 812 the precut cartons of the inner sleeve 204 into the assembled inner sleeve 204 illustrated in
Next, the precut cartons of the inner sleeve 204 are conveyed by the conveyor 1202 to a pressure application station (not shown) and assembling 800 the inner sleeve 204 also includes applying pressure 814 to the precut cartons of the inner sleeve 204 to enable the applied glue to set.
Finally, the precut cartons of the inner sleeve 204 are conveyed by the conveyor 1202 to a packaging station (not shown) and assembling 800 the inner sleeve 204 also includes packaging 816 the precut cartons of the inner sleeve 204 into a tray (not shown). In the illustrated embodiment, the precut cartons of the inner sleeve 204 are packaged into the tray and transported to assembling 900 the packaging apparatus 200. In alternative embodiments, the packaging station (not shown) may package the precut cartons of the inner sleeve 204 into any container that enables assembling 800 the inner sleeve 204 as described herein.
Referring to
Finishing 902 the outer sleeve 202 includes finishing the outer sleeve 202 using a cartoner 1300 illustrated in
Next, the outer sleeves 202 are conveyed by the chain 1302 to a squaring/prebreak station 1306 and finishing 902 the outer sleeve 202 also includes squaring/prebreaking 914 the outer sleeve 202. The outer sleeve 202 may include a plurality of scores, cuts, and/or prefolds that enable the outer sleeve 202 to be folded along predetermined lines such that the outer sleeve 202 may be folded and glued into a predetermined shape illustrated in
Next, optionally, the outer sleeve 202 may be conveyed by the chain 1302 to a label application station (not shown) and finishing 902 the outer sleeve 202 may also include applying, printing, and/or engraving 916 a label (not shown) to the outer sleeve 202. In the illustrated embodiment, the label may be a holographic label that indicates the authenticity of the items stored in the contents of the packaging apparatus 200. In some industries, counterfeiters are producing knockoff products in packaging the resembles the packaging of the original product. Some manufacturers are marking their products with holographic labels that are difficult to counterfeit to indicate the authenticity of the products within the packaging apparatus 200. In alternative embodiments, the label may be a non-holographic label rather than a holographic label. The cartoner 1300 may not include a label station and finishing 902 the outer sleeve 202 may not include applying 916 a label (not shown) to the outer sleeve 202. Additionally, in another alternative embodiment, the label may be printed or engraved on the outer sleeve 202.
If the label application station is included in the cartoner 1300, the label application station is attached to the chain 1302 such that the label application station automatically applies a label to the outer sleeve 202. Specifically, the label application station may include a plurality of brackets (not shown) that attach the label application station to the chain 1302 and position the label application station relative to the chain 1302 such that the label application station automatically receives and applies a label to the outer sleeve 202. The label application station may also include a plurality of plates (not shown) that rapidly present the outer sleeve 202 for label application.
Next, in the illustrated embodiment, the outer sleeves 202 are conveyed by the chain 1302 to an unfolding/folding station (not shown) and finishing 902 the outer sleeve 202 also includes unfolding/folding 918 the outer sleeve 202. In the illustrated embodiment, the outer sleeve 202 is unfolded from the label application orientation into a glue application orientation. In alternative embodiments, the unfolding/folding station (not shown) may fold and unfold the outer sleeve 202 into any orientation that enables finishing 902 the outer sleeve 202 as described herein.
Next, the outer sleeves 202 are conveyed by the chain 1302 to a glue application station (not shown) and finishing 902 the outer sleeve 202 also includes applying 920 glue to the outer sleeve 202. In the illustrated embodiment, the glue application station (not shown) includes at least one nozzle (not shown) that applies glue to a portion of the outer sleeve 202.
Next, the outer sleeves 202 are conveyed by the chain 1302 to a folding station (not shown) and finishing 902 the outer sleeve 202 also includes folding 922 the outer sleeve 202 into the assembled outer sleeve 202 illustrated in
Finally, the outer sleeves 202 are conveyed by the chain 1302 to a packaging station (not shown) and finishing 902 the outer sleeve 202 also includes packaging 924 the outer sleeve 202 into a tray (not shown). In the illustrated embodiment, the outer sleeves 202 are packaged into the tray and transported to inserting 908 the inner sleeves 204 into the outer sleeves 202. In alternative embodiments, the packaging station (not shown) may package the outer sleeve 202 into any container that enables finishing 902 the outer sleeve 202 as described herein.
Finishing 904 the inner sleeve 204 includes finishing the inner sleeve 204 using a cartoner 1400 illustrated in
Next, the outer sleeves 202 are conveyed by the chain 1402 to a squaring/prebreak station 1406 and finishing 904 the inner sleeve 204 also includes squaring/prebreaking 928 the inner sleeve 204. The inner sleeve 204 may include a plurality of scores, cuts, and/or prefolds that enable the inner sleeve 204 to be folded along predetermined lines such that the inner sleeve 204 may be folded and glued into a predetermined shape illustrated in
Next, optionally, the inner sleeve 204 may be conveyed by the chain 1402 to a label application station (not shown) and finishing 904 the inner sleeve 204 may also include applying, printing, and/or engraving 930 a label (not shown) to the inner sleeve 204. In the illustrated embodiment, the label may be a holographic label that indicates the authenticity of the items stored in the contents of the packaging apparatus 200. In some industries, counterfeiters are producing knockoff products in packaging the resembles the packaging of the original product. Some manufacturers are marking their products with holographic labels that are difficult to counterfeit to indicate the authenticity of the products within the packaging apparatus 200. In alternative embodiments, the label may be a non-holographic label rather than a holographic label. The cartoner 1400 may not include a label station and finishing 904 the inner sleeve 204 may not include applying 930 a label (not shown) to the inner sleeve 204. Additionally, in another alternative embodiment, the label may be printed or engraved on the inner sleeve 204.
If the label application station is included in the cartoner 1400, the label application station is attached to the chain 1402 such that the label application station automatically applies a label to the inner sleeve 204. Specifically, the label application station may include a plurality of brackets (not shown) that attach the label application station to the chain 1402 and position the label application station relative to the chain 1402 such that the label application station automatically receives and applies a label to the inner sleeve 204. The label application station may also include a plurality of plates (not shown) that rapidly present the inner sleeve 204 for label application.
Next, in the illustrated embodiment, the outer sleeves 202 are conveyed by the chain 1402 to an unfolding/folding station (not shown) and finishing 904 the inner sleeve 204 also includes unfolding/folding 932 the inner sleeve 204. In the illustrated embodiment, the inner sleeve 204 is unfolded from the label application orientation into a glue application orientation. In alternative embodiments, the unfolding/folding station (not shown) may fold and unfold the inner sleeve 204 into any orientation that enables finishing 904 the inner sleeve 204 as described herein.
Next, the outer sleeves 202 are conveyed by the chain 1402 to a glue application station (not shown) and finishing 904 the inner sleeve 204 also includes applying 934 glue to the inner sleeve 204. In the illustrated embodiment, the glue application station (not shown) includes at least one nozzle (not shown) that applies glue to a portion of the inner sleeve 204.
Next, the outer sleeves 202 are conveyed by the chain 1402 to a folding station (not shown) and finishing 904 the inner sleeve 204 also includes folding 936 the inner sleeve 204 into the assembled inner sleeve 204 illustrated in
Finally, the outer sleeves 202 are conveyed by the chain 1402 to a packaging station (not shown) and finishing 904 the inner sleeve 204 also includes packaging 938 the inner sleeve 204 into a tray (not shown). In the illustrated embodiment, the outer sleeves 202 are packaged into the tray and transported to inserting 908 the inner sleeves 204 into the outer sleeves 202. In alternative embodiments, the packaging station (not shown) may package the inner sleeve 204 into any container that enables finishing 904 the inner sleeve 204 as described herein.
In the illustrated embodiment, transferring 906 the inner sleeves 204 to the outer sleeves 202 includes transferring the tray that includes the inner sleeves 204 to the outer sleeves 202. In alternative embodiments, the inner sleeves 204 may be transferred to the outer sleeves 202 in any manner that enables method 100 to operate as described herein.
In the illustrated embodiment, inserting 908 the inner sleeves 204 into the outer sleeves 202 include manually inserting the inner sleeves 204 into the outer sleeves 202. Specifically, in the illustrated embodiment, the outer sleeves 202 remain in the tray and the inner sleeves 204 are individually transferred from the tray and individually inserted into the outer sleeves 204. In alternative embodiments, the inner sleeves 202 may be inserted into the outer sleeves 202 in any manner that enables method 100 to operate as described herein. For example, method 100 may include an automation system (not shown) including a robotic arm and the robotic arm may automatically insert the inner sleeves 204 into the outer sleeves 202.
In the illustrated embodiment, assembling 910 the tray for shipment includes placing a lid on the tray. In alternative embodiments, tray may be assembled in any manner that enables method 100 to operate as described herein.
The method 100 (including assembling 700 the outer sleeve 202 (shown in
The method 100 described herein manufactures the packaging apparatus 200 that is child resistant such that a child will not be able to access the contents of the packaging apparatus 200. More specifically, the packaging apparatus 200 has an outer sleeve 202, an inner sleeve 204, and a locking mechanism. The locking mechanism is formed by applying additional glue in predetermined locations and adding additional folds to increase the strength of the packaging apparatus 200 and forms the locking mechanism that is child resistant. If a child, for example, tries to get into the packaging apparatus 200 and forcefully grabs or pulls the packaging apparatus 200, the locking mechanism is configured to prevent the child from accessing the packaging apparatus 200 and the additional glue and folds resist tearing. Accordingly, the methods described herein enable the packaging apparatus 200 to be child resistant such that a child will not be able to access the contents of the packaging apparatus 200.
The storage item panels 1852 are separated from each other and from the top panel of the inner sleeve 1830 by a plurality of creases 1860 and a plurality of perforated seams 1862. The perforated seams 1862 completely separate a side of the storage item panels 1852 from the top panel of the inner sleeve 1830 and from each other, and the creases 1860 maintain a connection between the storage item panels 1852 and the top panel of the inner sleeve 1830 while enabling the storage item panels 1852 to be pressed down and rotated about the creases 1860. Specifically, the first storage item panel 1854 and the second storage item panel 1856 are separated from the top panel of the inner sleeve 1830 by a first end crease 1870a and a second end crease 1870b, and the first storage item panel 1854 is separated into a first storage item end panel 1854a and a first storage item middle panel 1854b by a panel crease 1872. The sides 1864 of the storage item panels 1852 are separated from the top panel of the inner sleeve 1830 by a first side perforated seam 1866a and a second side perforated seam 1866b. Additionally, the second storage item panel 1856 and the first storage item middle panel 1854b are separated by a panel perforated seam 1869 that is configured to break and separate the first storage item panel 1854 and the second storage item panel 1856 from each other when a user presses down on at least one of the first storage item panel 1854 or the second storage item panel 1856.
As shown in
In the deployed configuration illustrated in
As shown in
Compared to the first aperture 1874, the first aperture 1974 is elongated such that the first aperture 1974 extends to a first end perforation 1970a and the first aperture 1974 includes an enlargement panel 1994. The enlargement panel 1994 rotates about the first aperture 1974 to enable the inner sleeve compartment 1914 to receive and secure larger items 1950. Additionally, the second aperture 1976 is elongated such that the second aperture 1976 extends beyond a second end perforation 1970b. The second storage item panel 1956 is pressed and rotated into a vertical orientation relative to the bottom panel 1932 of the inner sleeve 1904. As shown in
As illustrated in
As illustrated in
An operation 2004 folds the panels of the inner sleeve and the outer sleeve to form the inner sleeve and the outer sleeve. The panels are folded such that the portions of the panels with adhesive contact portions of other panels without adhesive and form the inner sleeve and the outer sleeve. The inner sleeve includes a top panel including a plurality of storage item panels that are configurable to hold an item.
An operation 2006 folds the plurality of storage item panels toward a bottom panel of the inner sleeve to form an inner sleeve compartment.
An operation 2008 inserts the item into the plurality of storage item panels to secure the item within the inner sleeve and the outer sleeve.
The above specification, examples, and data provide a complete description of the structure and use of exemplary embodiments of the disclosed technology. Since many embodiments of the disclosed technology can be made without departing from the spirit and scope of the disclosed technology, the disclosed technology resides in the claims hereinafter appended. Furthermore, structural features of the different embodiments may be combined in yet another embodiment without departing from the recited claims.
This application is a continuation-in-part of U.S. Pat. Application No. 17/071,884, filed 15 Oct. 2020, which claims the benefit of U.S. Provisional Pat. Application No. 62/915,602, filed 15 Oct. 2019, the disclosures of which are incorporated herein, in their entireties, by this reference.
Number | Date | Country | |
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62915602 | Oct 2019 | US |
Number | Date | Country | |
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Parent | 17071884 | Oct 2020 | US |
Child | 18299681 | US |