A container for exchanging a fluid under pressure has a cylindrical tank with caps and seals at opposite ends of the tank. The caps are moved between the unsealed arrangement and the sealed arrangement using a tie rod engaging threaded bores in the caps. Each seal is held in a groove in a flange of each cap which is spaced from a shoulder between the flange and the cap's head. In the sealed arrangement, the seals are radially compressed between the flange and the tank's interior sidewall. With a central tie rod threadedly connected to threaded bores at the center of the caps, rotating the caps relative to the tank axially moves the caps between the sealed arrangement and the unsealed arrangement. The top cap has a fill port with a threaded plug, an inlet port, and an outlet port with a tube extending to the bottom of the tank.

An accumulator vessel (10) includes a screwable portion (3) and a lid portion (2) that is positioned at an axially inner side of the screwable portion and an axially inner surface configures a pressure bearing plane. The lid portion includes a protruding portion (22) extending axially outward on an inner circumferential side, and the protruding portion configured to abut against an axially inner end side of the screwable portion to separate an axially inner surface of the screwable portion on an outer circumferential side thereof apart from an axially outer surface of the lid portion on an outer circumferential side thereof.

An accumulator vessel (10) includes a screwable portion (3) and a lid portion (2) that is positioned at an axially inner side of the screwable portion and an axially inner surface configures a pressure bearing plane. The lid portion includes a protruding portion (22) extending axially outward on an inner circumferential side, and the protruding portion configured to abut against an axially inner end side of the screwable portion to separate an axially inner surface of the screwable portion on an outer circumferential side thereof apart from an axially outer surface of the lid portion on an outer circumferential side thereof.

A pressure vessel includes a pressure vessel body provided with a flow channel through which a fluid is caused to flow, having a rectangular cross-sectional shape, and formed in an elongated shape, and a circular body flange provided on at least one longitudinal end side of the pressure vessel body, the pressure vessel body has a fluid inlet-outlet port which is provided on the one longitudinal end side and the body flange side of the pressure vessel body and connects with the flow channel and through which the fluid is caused to flow in or out, and the pressure vessel further includes an inlet-outlet header which is formed between the pressure vessel body and the body flange as a closed space connecting with the fluid inlet-outlet port and which the fluid is caused to flow into and out of.

A closing plug for closing holes in objects, in particular for closing holes in vehicle bodies, wherein the closing plug has at least one first circumferential wall which encloses a cavity, wherein a transverse wall is present in the cavity between the circumferential side wall, which transverse wall has an outer shape which corresponds to the shape of the cavity and is attached to the side wall in a circumferential manner, wherein, for the purpose of reinforcing the circumferential wall against yielding outward or inward, at least one reinforcement rib extends transversely through the cavity and so as to connect opposite regions of the circumferential side wall.

A closing plug for closing holes in objects, in particular for closing holes in vehicle bodies, wherein the closing plug has at least one first circumferential wall which encloses a cavity, wherein a transverse wall is present in the cavity between the circumferential side wall, which transverse wall has an outer shape which corresponds to the shape of the cavity and is attached to the side wall in a circumferential manner, wherein, for the purpose of reinforcing the circumferential wall against yielding outward or inward, at least one reinforcement rib extends transversely through the cavity and so as to connect opposite regions of the circumferential side wall.

A threaded closure system includes a threaded opening and a threaded closure, where at least one thread of the threaded opening or the threaded closure has a leading portion with a steeper angle than the rest of the thread.

A closure is provided for a pressure vessel or pipelines that can provide quick and easy access to the interior of a pressure vessel or pipeline and means for a pressure tight seal between the hub and door. The closure can incorporate means for mechanically fastening the door to the hub using an external split clamp ring actuated by a toggle mechanism. A locking mechanism can be provided to safeguard against unintended closure actuation and provides a layer of redundancy to the holding characteristics of the toggle mechanism. The locking mechanism can be interlocked to a pressure alert system to ensure any differential pressure condition contained within the closure is detected prior to disengaging the locking mechanism and actuating the toggle mechanism.

A closure is provided for a pressure vessel or pipelines that can provide quick and easy access to the interior of a pressure vessel or pipeline and means for a pressure tight seal between the hub and door. The closure can incorporate means for mechanically fastening the door to the hub using an external split clamp ring actuated by a toggle mechanism. A locking mechanism can be provided to safeguard against unintended closure actuation and provides a layer of redundancy to the holding characteristics of the toggle mechanism. The locking mechanism can be interlocked to a pressure alert system to ensure any differential pressure condition contained within the closure is detected prior to disengaging the locking mechanism and actuating the toggle mechanism.