A flow meter testing system includes a mobile testing platform. The flow meter testing system further includes a rotatable inlet nozzle extending from the mobile testing platform and a rotatable outlet nozzle extending from the mobile testing platform. The flow meter testing system also includes a master flow meter positioned about the mobile testing platform and having a master meter inlet and a master meter outlet, the master meter inlet coupled to the rotatable inlet nozzle and the master meter outlet coupled to the rotatable outlet nozzle. The flow meter testing system further includes wherein the rotatable inlet nozzle is configured to couple to an inlet side of a test flow meter and the rotatable outlet nozzle is configured to couple also to an outlet side of the test flow meter.

A modular Coriolis flowmeter includes: a measuring tube module, including a measuring tube for guiding the medium, an excitation magnet on a vibration exciter for exciting the measuring tube, and a sensor magnet on a vibration sensor for detecting a vibration of the measuring tube; a receiving module including a receptacle for receiving the measuring tube module, an excitation coil on the vibration exciter, a sensor coil on the vibration sensor, and a receiving module body, including a ferromagnetic material and an opening, wherein a coil holder for the excitation coil and/or sensor coil is disposed in the opening, the coil holder including a coil holder body including an electrically insulating material.

The present disclosure relates to a modular measuring device including: a measuring tube module, wherein the measuring tube module includes a fixing body arrangement; an oscillation exciter; at least one oscillation sensor; and a support module including a seat, wherein the measuring tube module is arrangeable in the seat of the support module, wherein the support module includes a fixing apparatus, wherein the fixing apparatus includes an at least sectionally eccentrically embodied shaft, wherein the fixing apparatus, especially the shaft, is adapted to clamp the measuring tube module via the fixing body arrangement in the seat and to connect the measuring tube module mechanically releasably with the support module.

A Coriolis flow meter, includes: a measuring tube arrangement with at least one measuring tube and a fixing body arrangement; at least one oscillation exciter and at least one oscillation sensor; a support apparatus with seat and fixing apparatus, wherein the fixing apparatus has at least one swingable fixing element, wherein the fixing apparatus is adapted to connect the measuring tube arrangement, for example, the at least one measuring tube, via the fixing body arrangement mechanically releasably with the support apparatus body, wherein the at least one fixing element is adapted in the case of connecting the measuring tube arrangement with the support apparatus body to exert a bending force on the fixing body arrangement for elastically bending the fixing body arrangement.

A modular Coriolis flowmeter for determining a process variable of a flowable medium includes: a measuring tube module having a measuring tube for guiding the medium; and a support module having a recess in which the measuring tube module can be arranged with a detachable connection, an electronics chamber in which electronics components for operating the flowmeter are arranged, a support module wall bordering the electronics chamber and the recess and having a through-opening connecting the recess to the electronics chamber, and a contactless temperature sensor arranged in the electronics chamber and orientated such that, when the measuring tube module is arranged in the support module, the temperature sensor is directed towards a measuring tube module surface and receives light emitted from the measuring tube module surface through the opening.

A measuring tube arrangement has two support bodies, each with at least one bore, and a measuring tube with a lumen for guiding a medium. The measuring tube has a first end portion and a second end portion which are each connected to one of the support bodies. The tube arrangement has a portion that is polished by forced electrolytic plasma polishing that extends over at least three diameters of the tube. The portion polished by forced electrolytic plasma polishing is followed by an etched portion having a different surface structure than the portion polished by forced electrolytic plasma polishing.

The present disclosure provides Coriolis mass flow sensors including: at least two flow tubes in fluidic communication with a flow distribution manifold formed from a single block of polymer material, the flow distribution manifold including: a manifold inlet at a first end of the flow distribution manifold; a manifold outlet at a second end of the flow distribution manifold, opposite the first end; a first flow path, formed within the single block of polymer material, that extends from the manifold inlet to a first set of openings in a surface of the flow distribution manifold; a second flow path, formed within the single block of polymer material, that extends from the manifold outlet to a second set of openings in the surface of the flow distribution manifold; and a channel retaining a temperature sensor, formed within the single block of polymer material, that intersects with the first flow path.

A process monitoring device includes: a measuring tube module having at least one measuring tube through which a medium can flow; a receptacle module having a receptacle, wherein the measuring tube module can be inserted into the receptacle, wherein the measuring tube module can be mechanically separably connected to the receptacle module; and a system for biotechnological applications, wherein the system has a housing, wherein the housing has a housing wall, which delimits a housing interior, wherein the housing wall has a cover, wherein the cover has an opening, wherein the receptacle module, in particular the receptacle, extends through the opening into the housing interior.

The present invention relates to a feedthrough (200) adapted for use within a passage (300). The feedthrough (300) has a body (202) having a first interface region (204) and a second interface region (206). The first interface region (204) comprises a platform region (214). At least one electrical conductor (212) extends through the body (202) and out of the body (202) to both the first interface region (204) and the second interface region (206). A printed circuit board (216) is attached to the platform region (214). At least one pin hole (234) defined by the printed circuit board (216) is configured to accept the at least one electrical conductor (212).

A first terminal connector (300) comprises a component member (302) comprising a component member surface (322) with a first terminal post (306) oriented substantially perpendicular to the component member surface (322), and a cap member (304) comprising a cap member surface (324) and a first borehole (310) oriented substantially perpendicular from the cap member surface (324), the first borehole (310) including a bevel volume (328) configured to compress a plurality of windings from one or more wires (332, 334a, 334b) wound around the first terminal post (306) together between the component member surface (322) and the bevel volume (328) when the first terminal post (306) is inserted into the first borehole (310). A second terminal connector (500) comprises a component member (502) comprising a component member surface (522), and a cap member (504) comprising a cap member surface (524), wherein a first groove (550) is positioned on one of the component member surface (522) or the cap member surface (524), a first tongue (556) protruding from the other of the cap member surface (524) or the component member surface (522), and the first tongue (556) including a bevel volume (528) along a ridge of the first tongue (556) configured to compress one or more wires between the first groove (550) and the bevel volume (528) of the first tongue (556) when the first tongue (556) is inserted into the first groove (550).