A high-speed connector for an automobile includes a cable connector, a board connector connected to the cable connector, and elastic sliding blocks provided on two sides of the cable connector. The sliding blocks on two sides are configured separately or are integrated together. The cable connector includes a housing, a contact body and a wire. The contact body is installed in the housing. The contact body contacts and is connected to the board connector. The wire is connected to the contact body and protrudes out of the housing. The housing includes a main body portion and side snap-fit plates provided on two sides of the main body portion. A side snap-fit groove is provided on the side snap-fit plate. Side snap-fit clasps are provided on two sides of the board connector.

An electrical connector includes: a plastic housing provided with a receiving cavity extending in a front-rear direction therein; a metal stopping member provided in the housing, including at least one fixing portion embedded in the housing and a body exposed to the cavity, the body is provided with a through hole; a terminal base including a base portion and a tongue extending forwardly from the base portion, the terminal base is mounted in the cavity, the body of the metal stopping member blocks in front of the base portion, the tongue passes through the through hole of the metal stopping member and extends forwardly; and a plurality of conductive terminals fixed to the terminal base, each terminal includes a contact portion which is exposed to the tongue and a soldering portion which rearwardly extends out of the terminal base. The connector has a robust structure and facilitates to reduce weight.

A connector has a housing (10) and a detector (11) is movable in the housing (10) in a front-rear direction from a standby position to a detection position in front of the standby position when the housing (10) and a mating housing (90) are connected properly. The housing (10) includes protrusions (27) on side surfaces, and the detector (11) includes side walls (53) configured to cover the side surfaces of the housing (10). The side wall (53) includes a resilient piece (55) configured to bulge outward by interfering with the protrusion (27) in a moving process to the detection position and eliminates bulge at the detection position. The side wall (53) includes the resilient piece (55) and rearward facing surfaces (57) at positions adjacent to the resilient piece (55) via slits (54) on a side surface.

The present disclosure provides a battery product and an assembling method of the battery product, the battery product comprises a box and a heating connector. The box comprises a mounting panel. The mounting panel has a first receptacle portion and a second receptacle portion, and the second receptacle portion and the first receptacle portion are provided opposite to each other and communicating with each other. The heating connector comprises: a first plug assembly being mounted on the first receptacle portion; and a second plug assembly being mounted on the second receptacle portion. Compared with the technology related to the background, the battery product is equivalent to directly integrating the receptacle of the heating connector on the mounting panel, which not only eliminates the manner of fixing by the bolt, but also improves the integration of the battery product, thereby improving the space utilization and energy density.

Connectors and connector assemblies for attaching connectors to one or more cables and/or conduits are disclosed. The disclosed connectors and methods may secure an outer surface of the cable (e.g., an outer jacket of a cable) or conduit. A connector, for example, may include a female port with a port body, having a first port end configured to mate with a male element, a second port end opposing the first port, and a neck disposed between the first port end and the second port end, wherein the second port end engages with a cable gripper element such that a gap for positing the outer conductor layer is formed between opposing surfaces of the second port end and a surface of the cable gripper element.

A connector fixture includes a fixture body and a positioning member. The fixture body includes a fixing portion, a retaining portion, and a contact portion. When the fixture body is attached to the first connector, the fixing portion determines the relative position between the fixture body and the first connector in a z-axis direction. The contact portion determines the relative position between the fixture body and the first connector in a y-axis direction. The positioning member determines the relative position between the fixture body and the first connector in an x-axis direction. The positioning member is configured to be separable from the fixture body.

A connector is provided. The connector includes a connector body formed with a terminal portion, a locking body slidably coupled to the connector body, and a spring including a first leg portion fixed in position inside the connector body and a second leg portion making contact with the locking body. The spring is configured to apply a restoring force to the locking body in a direction in which the second leg portion is moved away from the first leg portion.

A lock arm (31) has a lock (34) that rides on a lock projection (62) while connecting two housings (10, 60) and locks the lock projection (62) when the housings (10, 60) are connected. A connection detecting member (45) is movable in the male housing (10) and between an initial position and a detection position. The connection detecting member (45) has a resilient detecting portion (50) capable of contacting the lock (34). First and second restricting surfaces (36, 37) are formed on a facing surface (35) of the lock (34) facing the resilient detecting portion (50). The first restricting surface (36) restricts displacement of the resilient detecting portion (50) in a riding direction on the lock (62) with respect to the lock (34) and the second restricting surface (37) restricts displacement of the resilient detecting portion (50) in a direction opposite to the riding direction on the lock projection (62).

A connector body includes mating guide parts formed on each longitudinal end and mating with counterpart mating guide parts formed on both longitudinal ends of a counterpart connector body of a counterpart connector. Each reinforcing bracket includes a pair of left/right slide guides disposed on the mating guide parts and being engageable with a pair of left/right slide engagement parts of a counterpart reinforcing bracket mounted to a counterpart mating guide part. One reinforcing bracket further includes a receiving member capable of emerging/submerging. When the counterpart mating guide part is mated with the mating guide part, the receiving member submerges. When the slide engagement part engages with the slide guide and the counterpart mating guide part slides on the mating guide part, the receiving member emerges and latches the counterpart mating guide part.

An electrical plug connector includes a metallic shell, a first insulated housing, a second insulated housing, a first terminal module, and a second terminal module. The first terminal module includes the first terminals and the first assembling block combined with each other to form a one-piece member, and then the first insulated housing is further combined with the first terminal module. The second terminal module includes the second terminals and the second assembling block combined with each other to form a one-piece member, and then the second insulated housing is further combined with the second terminal module. The four-piece component is assembled into the metallic shell. Accordingly, the number of the components for manufacturing the connector can be reduced, thereby simplifying the assembling procedure for the connector.