An electrical plug-in connection (100) provides a positive connection of a plug-in element (110) to a receiving element (120) within a medical device arrangement (700). The plug-in element forms a male part with an insertion area (112). The receiving element forms a female part with a receptacle (122) corresponding to the insertion area. In a plugged-together state this provides an electrical connection between a plug-side cable (118) connected to the plug-in element and a receptacle-side cable (128) connected to the receiving element via at least two contact areas. The insertion area is 180° rotationally symmetrical relative to an insertion axis (140) of the electrical plug-in connection. The insertion axis is oriented to an insertion direction, whereby a pole reversal of the electrical plug-in connection is allowed without being mirror symmetrical in relation to a reference plane comprising the insertion axis.

The present utility model discloses a multi-position change-over device and a multi-side socket with it, wherein each of at least three sides of a core frame is arranged with a first slot and a second slot which are paired; meanwhile, the first slots located on two adjacent sides are intersected to form the first mounting grooves used for installing a first conducting sheet and the second slots located on two adjacent sides are intersected to form the second mounting grooves used for installing a second conducting sheet so that the first slots located on two adjacent sides share one first conducting sheet and the second slots located on two adjacent sides share one second conducting sheet in order to make the core frame smaller, save the consumption of the first conducting sheet and the second conducting sheet and improve the assembly efficiency and thus make the whole multi-side socket smaller, more exquisite, easier to carry and cost-lower.

An implantable medical device for stimulating a human/animal heart, comprising a housing, a processor, a memory unit, a stimulation unit configured to stimulate the His bundle, and a detection unit configured to detect an electrical signal at the His bundle. The device performs: a) stimulating the His bundle with a stimulation pulse delivered by the stimulation unit; b) measuring an electric signal at the His bundle with the detection unit upon termination of a first period of time starting upon delivering of the stimulation pulse, wherein the first period of time is from 35 ms to 500 ms; c) measuring an impedance of the same heart with the detection unit upon termination of a second period of time starting upon delivering of the stimulation pulse, wherein the second period of time is equal to or longer than the first period of time and is from 50 ms to 500 ms.

A connector visual inspection apparatus comprises a rotatable clamp for clamping a connector to be inspected. A first camera of the apparatus is arranged on one side of the clamp for capturing an end face image of the clamped connector along an axial direction of the connector. A computing device calculates an angular difference between an initial loading orientation and a predetermined orientation of the clamped connector according to the captured end face image. A drive device rotates the clamp around an axis that coincides with a central axis of the clamped connector by the calculated angular difference and into the predetermined orientation.

The middle section and the tail section are mounted in a wire inlet of a terminal device. The aid sleeve is formed with an internal guide hole. A wire collection section is disposed on one side of the head section distal from the middle section. A recessed guide channel is disposed on one side of the wire collection section proximal to the guide hole. The recessed guide channel includes two lateral outer arched channels with larger curvature radius. The two lateral outer arched channels gradually extend toward a middle bottom face to form an inner arched channel with smaller curvature radius. The recessed guide channel can gradually bind the forked conductor end section of a multi-strand conductive wire, whereby the wire can be quickly plugged into the guide hole.

A lever-type connector includes a connector body including side walls and a boss portion and a lever including a pair of arm portions, each of the pair of arm portions being provided with a boss fitting hole into which the boss portion of the connector body is to be inserted, the lever being to be rotatably attached to the connector body. The connector body and the lever includes a first and second alignment marks, the first alignment mark and the second alignment mark being visually recognizable while the lever is being attached to the connector body. The lever is, by aligning the second alignment mark with the first alignment mark, to be rotatably attached to the connector body with a position of the boss portion and a position of the fitting hole being aligned with each other, allowing the boss portion to be inserted into the boss fitting hole.

A method for manufacturing an electrical harness comprising a reference member and a secondary member and at least one electric wire, a protective sheath and at least two shrink sleeves comprising a reference shrink sleeve and a secondary shrink sleeve. According to the disclosure, the method comprises at least the following steps: assembling of the electric wire, the protective sheath, the two shrink sleeves, the reference member and the secondary member, the two shrink sleeves being arranged in a non-contracted state; in a reference portion of the electrical harness, reference contraction of the reference shrink sleeve; in a secondary portion of the electrical harness, angular positioning of the secondary member according to a relative angular orientation; holding of the secondary member in position; and secondary contraction of the secondary shrink sleeve.

Systems, devices and methods are described for connecting multiple electrical connectors as a group with corresponding receiving sockets, or connection ports, in a medical device. A multiple electrical connector plate acts as an intermediate connector for quickly engaging or disengaging a group of electrodes with the corresponding device as a single unit. The connection plate includes multiple sections that allow a connector to be snapped securely in place on the connection plate such that the connector does not pull or push free from its snapped in location, resulting in group handling of electrical connectors that is less time consuming, reduces errors and positively impacts the quality of medical care.

The present disclosure relates to a direct current (DC) plug, a DC socket and electric equipment. The DC plug is configured to be connected to a DC socket to supply power to an electrical equipment. The DC plug includes: a center contact, including a first center contact side surface, a second center contact side surface, a third center contact side surface and a fourth center contact side surface, wherein the first center contact side surface and the second center contact side surface are oppositely disposed, and the third center contact side surface and the fourth center contact side surface are oppositely disposed; first plug current conductors, disposed on the first center contact side surface and the second center contact side surface; and second plug current conductors, disposed on the third center contact side surface and the fourth center contact side surface.

A connector assembly comprises a connector and a mating connector. The mating connector comprises a mating housing. The mating housing is formed with a release projection. The connector comprises a first housing and a second housing. The first housing is provided with a stopper. The second housing is provided with a stopped portion. One of the first housing and the second housing is provided with a second support portion which supports a supported portion. When the second housing is installed to the first housing, the stopped portion is brought into abutment with the stopper, and a movement of the second housing is regulated by the stopper. When the thus-regulated second housing is received into the mating housing together with the first housing, one of the second support portion and the supported portion is brought into abutment with the release projection so that the regulation of the second housing is released.