A flexible package having an inner sheet having a first surface and a second surface. The flexible package has an article reservoir for accepting an article to be shipped and one or more expansion chambers. The expansion chambers can be inflated or otherwise expanded to provide structure to the flexible package and to protect the article in the article reservoir.

A cushioning member includes a cushioning material arranged between a side surface of an object and an exterior box and a positioning member for positioning of the cushioning material with respect to the object. The positioning member includes a holding portion that holds the cushioning material, an engagement portion engaged with an upper surface of the object while the cushioning material held by the holding portion is located at a position set in advance in the side surface of the object, and a coupling portion that couples the holding portion and the engagement portion to each other.

A packaging part (1) for securing an item to be packaged in an outer packaging, has at least one supporting body (2, 16) that acts as a decoupling element. The supporting body is formed as a hollow body and projects from a bearing base. The supporting body (2, 16) has a base with a relatively large cross-section in the area of the bearing base and tapers in a direction away from the bearing base. The supporting body (2, 16) further has in its shell surface at least one line of weakness (14) that divides the supporting body into an upper part and a lower part. The upper part of the supporting body (2, 16) can be pressed along the line of weakness (14), preferably completely, into the lower part under load.

A self-inflating member is provided having a first flexible layer, a second flexible layer, a contracting element, a check valve and a first supporting element. The first and second flexible layers are connected to each other such that a cavity is formed there between. At least one of the first and second flexible layer comprises the check valve that creates a fluid connection between the cavity and the ambient environment. The contracting element is connected to the first and second flexible layers in at least a first and a second position, such that contraction of the contracting element moves the first and second position closer to each other. The first supporting element assists in supporting at least one of the first and second flexible layers, such that the cavity is expanded, which causes fluid from the ambient environment to flow through the check valve and into the expanded cavity.

A protection system and method for cargos in a compartment and a robotic equipment thereof, applied in the field of robotics, are disclosed. The system includes an inflatable mechanism and an airbag. The airbag is used for filling the space between the cargos and/or between the cargos and an inner wall of the compartment. The airbag includes an inlet. The inflatable mechanism is defined on a robot for inflating or deflating the airbag via the inlet. The protection system and method for cargos in a compartment and a robotic equipment thereof can improve the stability of the stacked cargos during the process of the loading and unloading of the cargos, and the stability of the cargos during transportation.

A photovoltaic module packing box and a photovoltaic module package structure are provided. The photovoltaic module packing box includes a tray having an accommodation space; a support plate having an edge hinged to an edge of the tray, and the support plate is lapped on the tray; an airbag assembly arranged in the accommodation space; an air valve assembly connected to the airbag assembly by a pipeline; an enclosure frame connected to the support plate and configured to enclose, together with the support plate, a receiving space for photovoltaic modules, and the enclosure frame includes a fixation part and a movable part; the fixation part is fixed to the support plate with one side thereof configured as an open structure; the movable part is detachably connected to the open structure of the fixation part, and the movable part and the fixation part together form an annular structure.

A fluid container has a first and second flexible membrane forming at least one chamber, a channel configured to receive pressurized inert gas, and one or more check valve assemblies disposed therebetween. The one or more check valve assemblies is formed from a continuous third flexible membrane folded at an apex, and configured to provide the flow of pressurized fluid in one direction upon inflation, from the channel to the at least one chamber, while restricting flow in the opposite direction. The one or more check valve assemblies are characterized in that they do not require pre-printing or electronic registering, thus allowing for an inflation flow rate of at least twice that of conventional inflatable packaging systems.

A packaging apparatus with an improved pinch roller apparatus, fluid supply apparatus, and/or a sealing apparatus. The pinch roller apparatus (e.g., comprising one or more guide and/or pinch rollers) is used to deliver film material to the fluid supply apparatus (e.g., nozzle and blower apparatus, or the like) that fills one or more chambers of the film material with fluid (e.g., air, gas, or other like fluid), and the film material is then sealed by a sealing apparatus (e.g., using one or more heating elements with an improved temperature sensor configuration) that seals the fluid within the one or more chambers in order to form the inflated article (e.g., inflated packaging material). In particular, the sealing apparatus provides improved sealing through the improved accuracy of the temperature reading in the heating zone, in part, by locating a sensor between a heating element and a protective member that covers the sensor.

An inflatable airbag without a heat-resisting layer and its manufacturing method is provided, the inflatable airbag comprises two cavity films, wherein the boundaries of the two cavity films are glued together; the inflatable airbag further includes two valve films which are arranged between the two cavity films; first heat-seal lines are arranged at top ends of the valve films; the valve films and the adjacent cavity films are glued through the first heat-seal lines; the inflatable airbag further includes second heat-seal lines, wherein the second heat-seal lines include disconnected areas and heat-pressing areas which are arranged alternately; in the heat-pressing areas of the second heat-seal lines, the two valve films and two cavity films are glued together; an inflation channel is formed by portions of the two cavity films above the second heat-seal lines; a bag body is formed by portions of the two cavity films below the second heat-seal lines.

The invention discloses a manifold arrangement for bulk handling of fluid material having an inner bag for holding fluid material, which includes a manifold member adapted to be located within the inner bag, the inner bag having a product inlet through which fluid material can be introduced into the inner bag and a product outlet through which the fluid material can flow from the inner bag, and being adapted to assist in forcing fluid material out of the inner bag through the product outlet and thereby reducing residue in the inner bag.