Implementations herein may involve a packaging system including a first box part including a plurality of lid walls, where a first lid wall comprises an aperture and a latch slidably disposed within the aperture. The packaging system may also include a second box part having a plurality of tray wall
Implementations herein may involve a packaging system including a first box part including a plurality of lid walls, where a first lid wall comprises an aperture and a latch slidably disposed within the aperture. The packaging system may also include a second box part having a plurality of tray walls, where a first tray wall comprises a channel sized to slidably receive the latch. The channel may include an assembly channel segment and a locking channel segment, where the assembly channel segment intersects an edge of the first tray wall. Further, the second box part may be configured to fit within the first box part such that a) the assembly channel segment is aligned with the latch when the latch is in a first position within the aperture, and b) the latch is slidable within the locking channel segment to a second position.
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1. A packaging system comprising: a first box part comprising a plurality of lid walls, wherein a first lid wall comprises an aperture, wherein the first lid wall further comprises a front plate and a back plate, wherein the front plate and back plate both comprise respective apertures, wherein the
1. A packaging system comprising: a first box part comprising a plurality of lid walls, wherein a first lid wall comprises an aperture, wherein the first lid wall further comprises a front plate and a back plate, wherein the front plate and back plate both comprise respective apertures, wherein the front plate and back plate are both substantially parallel with the first lid wall, wherein the front plate and the back plate are coupled together such that the apertures of a) the first lid wall, b) the front plate, and c) the back plate are substantially aligned, wherein the first lid wall further comprises an inside wall and an adjacent outside wall, wherein the front plate is disposed between the inside and outside walls, and wherein back plate is disposed such that the inside wall is between the front plate and the back plate;a latch slidably disposed within the substantially aligned apertures of a) the first lid wall, b) the front plate, and c) the back plate; anda second box part comprising a plurality of tray walls, wherein a first tray wall comprises a channel sized to slidably receive the latch, wherein the channel comprises an assembly channel segment and a locking channel segment, wherein the assembly channel segment intersects an edge of the first tray wall, wherein the second box part is configured to fit within the first box part such that a) the assembly channel segment is aligned with the latch when the latch is in a first position within the aperture, and b) the latch is slidable within the locking channel segment to a second position. 2. The packaging system of claim 1, wherein the latch is slidable within the apertures of a) the first lid wall, b) the front plate, and c) the back plate along a single axis. 3. The packaging system of claim 1, wherein the latch is slidable within the apertures of a) the first lid wall, b) the front plate, and c) the back plate along a plurality of axes, and wherein the channel comprises a plurality of intersecting locking channel segments. 4. The packaging system of claim 1, wherein the first lid wall comprises two adjacent walls. 5. The packaging system of claim 4, wherein the latch comprises a slide flange substantially parallel to the first lid wall, and wherein the slide flange is disposed between the two adjacent walls of the first lid wall. 6. The packaging system of claim 1, wherein the latch comprises a slide flange substantially parallel to the first lid wall, and wherein the slide flange is slidably contained within a cavity between the front plate and the back plate. 7. The packaging system of claim 1, wherein the first lid wall further comprises a guide projection positioned such that the guide projection aligns with the assembly channel segment when the second box part is fitted within the first box part. 8. The packaging system of claim 1, wherein the latch further comprises at least one notch, wherein the at least one notch is sized to engage at least one protrusion of the first lid wall, wherein the at least one notch engages the at least one protrusion when the latch is in the second position. 9. The packaging system of claim 1, wherein the latch further comprises at least one notch, wherein the at least one notch is sized to engage at least one protrusion of the first lid wall, wherein the at least one notch engages the at least one protrusion when the latch is in the second position. 10. The packaging system of claim 9, wherein the at least one notch engages the at least one protrusion when the latch is in the first position. 11. The packaging system of claim 1, wherein the assembly channel segment comprises a first width at the edge of the first tray wall, and wherein the assembly channel segment comprises a second width, smaller than the first width, away from the edge of the first tray wall. 12. The packaging system of claim 1, wherein the first tray wall comprises a channel liner coupled to the first tray wall. 13. The packaging system of claim 12, wherein the first tray wall further comprises an inside wall and an adjacent outside wall, wherein the channel liner comprises a positioning flange, and wherein the positioning flange is disposed between the inside and outside walls. 14. The packaging system of claim 1, wherein the latch further comprises an interior flange, wherein the interior flange is disposed within the first tray wall when the second box part is fitted within the first box part. 15. The packaging system of claim 1, wherein the plurality of lid walls consists of five lid walls. 16. A method comprising: fitting a second box part within a first box part, wherein the first box part comprises a plurality of lid walls, wherein a first lid wall comprises an aperture, a front plate, and a back plate, wherein the front plate and back plate both comprise respective apertures, wherein the front plate and back plate are both substantially parallel with the first lid wall, wherein the front plate and the back plate are coupled together such that the apertures of a) the first lid wall, b) the front plate, and c) the back plate are substantially aligned, wherein the first lid wall further comprises an inside wall and an adjacent outside wall, wherein the front plate is disposed between the inside and outside walls, and wherein back plate is disposed such that the inside wall is between the front plate and the back plate, wherein a latch is slidably disposed within the substantially aligned apertures of a) the first lid wall, b) the front plate, and c) the back plate, wherein the second box part comprises a plurality of tray walls, wherein a first tray wall comprises a channel sized to slidably receive the latch, wherein the channel comprises an assembly channel segment and a locking channel segment, wherein the assembly channel segment intersects an edge of the first tray wall, and wherein the second box part is configured to fit within the first box part such that a) the assembly channel segment is aligned with the latch when the latch is in a first position within the aperture, and b) the latch is slidable within the locking channel segment to a second position; andsliding the latch within the substantially aligned apertures to the second position, wherein sliding the latch within the substantially aligned apertures further comprises sliding the latch within the locking channel segment. 17. The method of claim 16, wherein sliding the latch within the substantially aligned apertures to the second position comprises sliding the latch such that at least one notch located on the latch engages at least one protrusion of the first lid wall.
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