A new design for a child resistant cap which features a flip open top which opens to reveal a viewing mechanism, which allows magnified viewing of the contents of a container upon which the cap is installed, is presented. The cap allows the content's of a container to be viewed without the necessity of removing the cap from the container. The cap of the present invention includes an outer cap and an inner cap. The outer cap includes a lens concentrically aligned with a viewing window in the inner cap. The outer cap is also equipped with a flip top lid which is operable to cover and uncover the lens and viewing window. The outer and inner caps are equipped with features that make the closure difficult for a child to open.

The present invention relates to a compact container having a tension part integrally formed therein, which is a compact container comprising an outer container which is equipped with a button, and an outer container lid which is hinge-coupled to one side of the outer container and opens and closes, wherein a middle body is coupled to the inner side of the outer container, a tension part is integrally formed on one side of the middle body, a lower inclined part of the tension part has an angle of 30-55 and a thickness of 0.5-2.5 mm, and when the outer container lid is closed the lower inclined part is pushed by the outer container lid so as to go 0.2-1.0 mm to the inside.

Packaging made of a sealable packaging material has a front wall and a rear wall which are directly or indirectly joined to one another; a removal opening extends from and/or is located at an edge of the packaging. An additional material may be disposed between the layers of packaging material, wherein this additional material can be configured as strips and/or can take up the entire width of the removal opening

A combination bucket lid and seat permits a user to access contents of the bucket while the user is seated. The lid has a lip for engaging the bucket, and an opening configured to receive a hand of a user for removing the bucket contents. The opening may be selectively covered by a door that is attached to the lid. The door is movable between a closed position and an opened position. The door is configured to cover the opening of the lid in the closed position and uncover the opening of the lid in the open position. The door also may have a pad that allows the user to be comfortable while sitting. More specifically, the door may be attached to the lid by a hinge, or rotatable about an axis of rotation, to selectively cover and uncover the opening.

A covered container manufacturing device for manufacturing a resin covered container that includes: a container main body; an outer cover portion that opens and closes the container main body; and a hinge portion that couples the container main body with the outer cover portion, and wherein the container main body, the outer cover portion and the hinge portion are integrally formed, the covered container manufacturing device including: an angle regulator that regulates a relative angle of the outer cover portion with respect to the container main body to a predetermined angle of less than 180 degrees, wherein the angle regulator comprises: a heater that comprises a heating portion that generates heat and heats the hinge portion; and a bender that bends the outer cover portion relative to the container main body at the heated hinge portion, wherein the heater heats inside of the hinge portion.

The present invention relates to a new closure for a container, the manufacturing precursor that is converted into the closure, and the method of closure manufacture. The closure is comprised of a cap (usually threaded), a retention ring (that keeps the closure assembly connected to the container), and a hinge and articulating band that connects the cap to the retention ring. The closure is made by three major steps in the method: (1) polymer molding the closure, (2) scoring/cutting the closure, and (3) stamping the hinge which reorients the polymer. The hinge and articulating band elements are manufactured so that the band articulates and changes shape as the closure is opened. By necessity, the cap and the retention ring must separate as the cap is lifted or unthreaded; the articulating nature of the hinge and band feature allows it to keep the cap and retention ring connected as they separate. Even after opening the container, the cap remains attached to the container for convenience and anti-littering purposes.

A food storage container is provided that may be used to increase shelf life of produce stored therein. The food storage container is preferably used to contain produce that is often not refrigerated, and thus subject to increased humidity levels when stored inside a sealed container. The container preferably includes each of a container portion and a lid member and a container portion, wherein the lid member may be attached and removed to the container portion. The lid member may include upper and lower lid members that are also selectively engageable with one another. A water vapor permeable membrane layer is preferably secured between the upper and lower lid members to help control humidity levels within the container portion. In some embodiments, a gas permeable membrane layer may be present between the upper and lower lid members for controlling gas flow into and out of the container portion as well.

The utility model discloses an anti-glue overflow wet tissue box cover, comprising a cover body and an upper cover surface connected with the cover body. A glue overflow groove depressed upward is arranged on a lower surface of the cover body, and excessive overflow fixture flows into a means inside the glue overflow groove when the wet tissue box cover is fixed to a wet tissue bag with glue or other fixtures. The anti-glue overflow wet tissue box cover of the application has a simple structure and strong practicability, and the glue overflow groove thereon can effectively avoid overflow of solid glue when the wet tissue box cover is installed.

A transport container is provided. The transport container includes a body having a base, a cover, an opening, and at least one side wall all defining a cavity therebetween. The transport container also includes an electronic controller. The electronic controller is configured to determine a geographic route from a carrier destination location to a destination location based on received carrier transfer information and received transportation information. The electronic controller is also configured to display the carrier transfer information on a user interface when the transport container is located at a carrier initial location. The electronic controller is further configured to deploy the transport container when the transport container is located at the carrier initial location.

A preload mechanism for a memory alloy wire actuator is disclosed that includes a rotating element configured to rotate about a pivot. The rotating element has a first contact point that is configured to couple to the memory alloy wire actuator such that contraction of the memory alloy wire actuator displaces the first contact point such that the rotating element rotates from a first position to a second position. The preload mechanism also includes a bias element with a first end that is coupled to a second contact point of the rotating element and a second end configured to be pinned relative to the pivot. The bias element has a line of action extending from the second end through the first end. The line of action has an offset distance that is the minimum distance between the line of action and the pivot. The offset distance has a first value when the rotating element is in the first position and a second value when the rotating element is the second position, the second value being smaller than the first value.