A process of manual, semi-automatic and fully-automated integration of discrete components into a container that results in fast, reliable, cost-effective, and scalable production of composite containers is disclosed. The process can be embodied in manufacturing equipment that has a series of stations and may be called an assembly device. The equipment can produce containers, tubs, canisters, cartridges, etc. which are easily separated into different bio-degradable or compostable parts. Other container types are possible and are contemplated.

A resin fuel tank includes a fuel tank main body (19) in which a closed space for storing fuel is formed in its interior; a built-in part (24) that is disposed within the closed space and is fixed to a wall portion of the fuel tank main body by at least two mounting portions (46); connecting portions (32, 34) of the built-in part, which are separated from the wall portion and that connect the two mounting portions (46); and deformation absorbing portions (48A, 48B) of the built-in part which are elastically deformable, are upside-down U-shaped as seen in side view and are provided between the mounting portions (46) and the connecting portions (32, 34), one ends (68A, 68B) of the deformation absorbing portions being fixed to the connecting portions, and other ends (56A, 56B) of the deformation absorbing portions being separated from the connecting portions in a height direction.

It is proposed a process for fastening an accessory to the interior of a blow-molded tank, the tank having a plastic wall produced from a parison, the accessory comprising a body having at least one attaching portion projecting radially from the body. The process comprises the steps of: a) introducing the accessory and the parison in a molten state into a mold so that the accessory is surrounded by the parison, the mold comprising cavities, at least one cavity being equipped with at least one movable insert configured to fold locally some of the molten parison on the attaching portion; b) contacting the parison with the attaching portion; c) moving forward the insert and folding locally some of the molten parison on the attaching portion; d) closing the mold by moving the mold cavities to a final closing position and inflating the parison to form the blow-molded tank; e) moving backwards the insert; and f) opening the mold.

In at least some implementations, a blow molding process provides that portions of the parison are engaged by one or more clamping devices disposed on or adjacent to the blow mold parts, and that the blow mold is opened whereby the parison is torn apart between the clamping devices, into two or more pieces of the parison. In other implementations, the clamping devices may be moved relative to the blow mold to tear the parison, or the parison may be torn by a combined movement of the blow mold parts and clamping devices.

A liner structure includes a liner main body and an insert located inside an opening of the liner main body. The liner main body is made of a polybutylene material. The liner structure has relatively good heat resistance within a temperature range corresponding to conventional liquid water, and can be used for containing hot water. Moreover, a feasible manufacturing method is provided. The method can overcome defects of material characteristics through process optimization, so that can implement manufacturing the liner structure.

This invention relates to a container (1) which is pre-filled or pre-fillable with one or more substances, such as a medical liquid and similar, comprising a squeezable activation compartment (2) intended to contain said one or more substances, a dispensing compartment (3) including a first portion (31) equipped with at least one dispensing member (311, 312, 314) of said one or more substances, and a second portion (32), wherein said second portion (32) of said dispensing compartment (3) and said activation compartment (2) are fluid-dynamically connected, and an activator element (4) arranged inside said container (1). This invention also relates to a method for dispensing at least one substance by means of a container (1), and to a production method of a container (1).

A resin fuel tank includes a fuel tank main body (19) in which a closed space for storing fuel is formed in its interior; a built-in part (24) that is disposed within the closed space and is fixed to a wall portion of the fuel tank main body by at least two mounting portions (46); connecting portions (32, 34) of the built-in part, which are separated from the wall portion and that connect el the two mounting portions (46); and deformation absorbing portions (48A, 48B) of the built-in part which are elastically deformable, en.) are upside-down U-shaped as seen in side view and are provided between the mounting portions (46) and the connecting portions (32, 34), one ends (68A, 68B) of the deformation absorbing portions being fixed to the connecting portions, and other ends (56A, 56B) of the deformation absorbing portions being separated from the connecting portions in a height direction.

A process of manual, semi-automatic and fully-automated integration of discrete components into a container that results in fast, reliable, cost-effective, and scalable production of composite containers is disclosed. The process can be embodied in manufacturing equipment that has a series of stations and may be called an assembly device. The equipment can produce containers, tubs, canisters, cartridges, etc. which are easily separated into different bio-degradable or compostable parts. Other container types are possible and are contemplated.

The inventive technology encompasses new and novel methods for manufacturing helium-free balloons using improved injection molding systems and techniques. The invention includes new and novel preform, as well as parison based methods and methods of manufacturing integrated helium-free balloons compatible with external support components.

Disclosed is a hollow molded article which has an opening portion communicating with a flow channel and which can be manufactured simply. The hollow molded article includes a panel and flow channels. The panel includes a first resin sheet and a second resin sheet partly welded with the first resin sheet. The flow channels are disposed between the first resin sheet and the second resin sheet, and include connection portions for external connection which are disposed on a peripheral edge of the panel. The connection portions are formed by the first resin sheet and the second resin sheet.