A pure electric modular subsea test tree is provided, which includes a connect-disconnect device, wherein the first channel is formed in the connect-disconnect device; the connect-disconnect device is provided with a locking assembly and a connection drive mechanism for driving the locking assembly, and the first electrical connection plug is embedded in the connect-disconnect device, and the connection drive mechanism is electrically connected with the first electrical connection plug; a shear-seal assembly, wherein a second channel communicated with the first channel is formed in the shear-seal assembly; the shear-seal assembly includes at least one shear-seal device capable of plugging the second channel; a connection part is formed on the shear-seal assembly; a heating device is arranged at one end of the shear-seal device far from the connection part. The disclosure relates to a pure electric modular subsea test tree, which has fast response speed and high operation safety.

A pure electric modular subsea test tree is provided, which includes a connect-disconnect device, wherein the first channel is formed in the connect-disconnect device; the connect-disconnect device is provided with a locking assembly and a connection drive mechanism for driving the locking assembly, and the first electrical connection plug is embedded in the connect-disconnect device, and the connection drive mechanism is electrically connected with the first electrical connection plug; a shear-seal assembly, wherein a second channel communicated with the first channel is formed in the shear-seal assembly; the shear-seal assembly includes at least one shear-seal device capable of plugging the second channel; a connection part is formed on the shear-seal assembly; a heating device is arranged at one end of the shear-seal device far from the connection part. The disclosure relates to a pure electric modular subsea test tree, which has fast response speed and high operation safety.

A service valve for a valve body includes a base rotatable between an open orientation and a closed orientation relative to the valve body. When the base is in the open orientation, the service valve allows fluid flow into the valve body through the service valve. When the base is in the closed orientation, the service valve blocks the fluid flow into the valve body through the service valve. The service valve further includes a tab extending from the base. The tab prevents removal of a cover from the valve body when the base is in the open orientation.

A service valve for a valve body includes a base rotatable between an open orientation and a closed orientation relative to the valve body. When the base is in the open orientation, the service valve allows fluid flow into the valve body through the service valve. When the base is in the closed orientation, the service valve blocks the fluid flow into the valve body through the service valve. The service valve further includes a tab extending from the base. The tab prevents removal of a cover from the valve body when the base is in the open orientation.

Various embodiments provide a connector for the sterile transfer of a liquid medium from a container to a bioprocess engineering system. The connector has two coupling devices. The coupling devices each have a housing and a control element which is adjustably mounted in the housing interior and forms a channel. The channel extends from a control element inlet opening to a control element outlet opening. The housings are able to be mechanically connected to one another and have a fluid inlet and a fluid outlet. The fluid outlet of one housing and the fluid inlet of the other housing overlap. The control elements are each adjustable from a starting position, into an operating position, in which the control element inlet opening is fluidically connected to the fluid inlet and the control element outlet opening is fluidically connected to the fluid outlet.

Various embodiments provide a connector for the sterile transfer of a liquid medium from a container to a bioprocess engineering system. The connector has two coupling devices. The coupling devices each have a housing and a control element which is adjustably mounted in the housing interior and forms a channel. The channel extends from a control element inlet opening to a control element outlet opening. The housings are able to be mechanically connected to one another and have a fluid inlet and a fluid outlet. The fluid outlet of one housing and the fluid inlet of the other housing overlap. The control elements are each adjustable from a starting position, into an operating position, in which the control element inlet opening is fluidically connected to the fluid inlet and the control element outlet opening is fluidically connected to the fluid outlet.

A joint includes a male module and a female module capable of docking with each other. The male module includes a core rod and a sliding cylinder that is slidably sleeved on an outer periphery of the core rod. A first valve port is disposed in the sliding cylinder, and the core rod is provided with a piston head that is in hermetic fit with the first valve port. The female module includes a valve body and a piston. A first channel is disposed in the valve body, the piston is slidably disposed in the first channel, and a second valve port that is in hermetic fit with the piston is disposed in the first channel.

Fluid coupling containing two coupling halves that can be coupled to one another via connecting elements, each of the coupling halves containing: a housing, which has an end face, the end face having at least one connecting element for the mutual connection of the coupling halves, the housing having an end-face connecting face, the connecting faces of the two coupling halves contacting one another when in the coupled state; a spherical valve element; a locking element, which can be mutually operated via the connecting elements and releases rotary levers; and a rotary lever for operating the valve element, wherein the locking element is arranged in the housing such that it can be displaced parallel to the throughflow direction or longitudinal axis, wherein the locking element is displaced parallel to the throughflow direction or longitudinal axis, and the rotary lever is released, by the coupling halves hooking into one another vertically relative to the throughflow direction or longitudinal axis.

Fluid coupling containing two coupling halves that can be coupled to one another via connecting elements, each of the coupling halves containing: a housing, which has an end face, the end face having at least one connecting element for the mutual connection of the coupling halves, the housing having an end-face connecting face, the connecting faces of the two coupling halves contacting one another when in the coupled state; a spherical valve element; a locking element, which can be mutually operated via the connecting elements and releases rotary levers; and a rotary lever for operating the valve element, wherein the locking element is arranged in the housing such that it can be displaced parallel to the throughflow direction or longitudinal axis, wherein the locking element is displaced parallel to the throughflow direction or longitudinal axis, and the rotary lever is released, by the coupling halves hooking into one another vertically relative to the throughflow direction or longitudinal axis.

The present disclosure discloses a valve with dual ball valves, including two ball valves arranged side by side and clamped with each other, wherein each ball valve includes a valve body, a ball body, a valve rod and a handle, clamping structures are respectively and correspondingly arranged on one surfaces of the two valve bodies abutting against each other, and each ball valve further includes a limiting seat, a first anti-misoperation device and a second anti-misoperation device. The first anti-misoperation devices ensure that the handles can be rotated freely only when the two ball valves are in a clamped state. The second anti-misoperation devices ensure that the handles can only be rotated when external force is applied to the handles. Misoperation on the valve is prevented through triple protection.