A method of forming a packaging box and disposing at least one bed linen in the packaging box. Forming the packaging box to have a back panel, four side panels, a first front panel, and a second front panel attached to one of the side panels. Configuring the first front panel to have an aperture and to be an interior panel enclosed within the packaging box when the packaging box is in a closed configuration. Configuring the second front panel to fold relative to a side panel such that it is an exterior front panel in the closed configuration. Configuring the exterior front panel to include an exterior side panel and configuring the exterior side panel to lay adjacent a side panel in the closed configuration. Configuring the exterior side panel to include an attachment device securing the exterior side panel to the adjacent side panel in the closed configuration.

Embodiments of the present disclosure provide for a multisensory examination jar for botanical specimens. Embodiments of the disclosed jar may have a body portion with an integrated LED array for illuminating the contents of the jar. The jar may have a removable lid with an integrated magnifying lens, and an opening or port to enable a user to smell the contents of the jar. The opening may have a removable plug to establish a substantially air tight seal on the lid of the jar, to trap odors within the jar. The removable plug can be selectively removed to enable the user to smell the contents of the jar. The jar may have an electronics module and power source operable for wireless charging. The jar may also be configured to interface with a charging dock or base for wireless charging of integrated batteries.

A crown cap game device using crown caps, characterized in that a measurement device (4) with a Bluetooth module (5) is installed in the bottom (1) of a crown (3) cap (2), whereas the measurement device (4) clings to the wall (6) and the Bluetooth module (5) provides a connection with a mobile device (7) equipped with a mobile application (8) which analyzes and displays all data (9) from the measurement device (4), and then displays the data (9) on the screen (10) of the mobile device (7).

The present invention relates to a testing method and a corresponding testing system, for example for testing workpieces (2), which are provided for producing containers, in particular beverage bottles, and which can consist of a basic body and a barrier layer that is at least partially applied to the basic body, whereby the workpieces (2) are transported into a receiving vessel (4) by means of a transport device (3), and whereby an image of the workpieces (2) is generated by means of a capturing device (6) and is transmitted to a processing device for testing, wherein the workpieces (2) are led into the receiving vessel (4) upon leaving the transport device (3), whereby the image is generated between the departure from the transport device (3) and the receiving vessel (4) and wherein the image is processed by the processing device in such a way that the quality of the basic body and/or the quality of the barrier layer of the workpieces (2) is tested in order to detect defective workpieces (2). The same testing system and the same testing method can also be used to count the workpieces (2).

Pet owners cannot tactilely examine, or experience food contained in rigid packaging. This product experience at the point of purchase requires pliable or flexible packaging. However, pliable or flexible packaging has limited ability to stack, both on the store shelf, as well as in the pet owner's pantry. Provided is a multi-functional container for moist or wet, textured food. The container has rigid sidewalls, a bottom with at least a portion made from a flexible or pliable material or membrane or that provides access to a bag of a flexible or pliable material or membrane, and a lid to seal the opening of the container or the bag. Since the food contacts the flexible or pliable material or membrane, it can be tactilely examined at the point of purchase. If the material or membrane is transparent, the food can also be visibly examined at the point of purchase.

A package (200) for a selectively separable quad cane assembly can include an enclosed rectangular box (500), with a front face (201) defining an aperture (224) that is centrally located along a height (225) of the front face and offset from a medial line (227) defined by the front face. An upper face (205) can define a two-sided aperture (222) at a corner of the upper face, while a lower face (206) defines a peninsular aperture (221) that is centrally located along an edge (223) of the lower face. In the package, the aperture can concentrically circumscribe an a cane-receiving conduit (125) of a quadspider (221) of the cane, while an apex (501) of a gooseneck (108) of the cane is aligned with the two-sided aperture of the upper face and the lower leg is aligned with the peninsular aperture of the lower face.

A light device and package is disclosed including a light device with a diffuser and a light emitting element arranged so as to generate light through the diffuser which receives electrical power from an electrical power storage device recharged by a photovoltaic device with control circuitry arranged to control power supplied from the electrical power storage device. A test device is included having two conductors connected across a test switch. A device package is included having an opaque and light transmissive package portions and contains the light device and the two conductors. In a first configuration, the test switch is connected between the electrical storage device and the light emitting element via the two conductors, and in a second configuration, the test switch and the two conductors are disconnected from the light device. The test device can be used with multiple light devices and may be secured by a pull-tab.

This disclosure relates to containers and substrates comprising a fluoropolymer and having a textured inner surface and to methods for cultivating and/or isolating a biological agent using such containers and substrates. In one embodiment, the disclosure provides a container (e.g., in the form of a bag) having an outer surface and a textured inner surface, the inner surface comprising a fluoropolymer, wherein the textured inner surface comprises one or more of (a) a plurality of functional groups attached to the fluoropolymer, and (b) a pattern of spaced features, the features having an average spacing within the range of 0.1 m to 200 m.

A temperature controlled container comprising:

an inner housing member defining a cavity, wherein at least a portion of the inner housing member comprises phase change material for regulating a temperature inside the cavity within a predetermined temperature range;

an outer housing member configured to accommodate and thermally insulate the inner housing member; and a content holding unit configured to be removably accommodated inside the cavity of the inner housing member, wherein the content holding unit is configured to hold an object to be stored or transported.

A liquid storage tank has a breathing valve that vents the tank's headspace at a high-pressure value and admits an ambient gas at a low-pressure value. A controller generates a first control signal when the percentage of the catalyst gas is less than a catalyst threshold, a second control signal when the percentage of the catalyst gas exceeds the catalyst threshold, and a third control signal when the pressure in the headspace is equal to a low-pressure threshold between the breathing valve's low-pressure value and high-pressure value. The first valve is only opened to output inert gas at a discharge pressure greater than the breathing valve's high-pressure value in response to the second control signal. The second valve is only opened to output inert gas at a discharge pressure that is between the breathing valve's low-pressure value and high-pressure value in response to the third control signal.