An electric energy transmission aluminum part and a machining process therefor including an aluminum conductive device (1) and an aluminum cable, with the aluminum cable including an aluminum conductive core (2) and an insulation layer (3) cladding a surface of the aluminum conductive core (2). An exposed section of the aluminum conductive core (2) with the insulation layer (3) stripped from the aluminum cable and at least part of the aluminum conductive core (2) clad with the insulation layer (3) are crimped inside the aluminum conductive device (1). A transition section (4) with a trapezoidal axial cross-section is provided at a junction between the insulation layer (3) and the exposed section of the aluminum conductive core (2) in the aluminum conductive device (1). Taking the transition section (4) as a demarcation point, an inner diameter of an end of the aluminum conductive device (1) that is crimped with the insulation layer (3) is greater than an inner diameter of an end of the aluminum conductive device (1) that is crimped with the aluminum conductive core (2). At least one concave structure is provided on a periphery of the aluminum conductive device (1). The concave structure provided on the surface of the aluminum conductive device (1) can effectively prevent the aluminum conductive device (1) from moving relative to a clamp, so as to solve the problem of displacement or rotation of the aluminum conductive device (1) in the clamp during welding, and improve the welding efficiency and the yield.

An electric energy transmission aluminum part and a machining process therefor including an aluminum conductive device (1) and an aluminum cable, with the aluminum cable including an aluminum conductive core (2) and an insulation layer (3) cladding a surface of the aluminum conductive core (2). An exposed section of the aluminum conductive core (2) with the insulation layer (3) stripped from the aluminum cable and at least part of the aluminum conductive core (2) clad with the insulation layer (3) are crimped inside the aluminum conductive device (1). A transition section (4) with a trapezoidal axial cross-section is provided at a junction between the insulation layer (3) and the exposed section of the aluminum conductive core (2) in the aluminum conductive device (1). Taking the transition section (4) as a demarcation point, an inner diameter of an end of the aluminum conductive device (1) that is crimped with the insulation layer (3) is greater than an inner diameter of an end of the aluminum conductive device (1) that is crimped with the aluminum conductive core (2). At least one concave structure is provided on a periphery of the aluminum conductive device (1). The concave structure provided on the surface of the aluminum conductive device (1) can effectively prevent the aluminum conductive device (1) from moving relative to a clamp, so as to solve the problem of displacement or rotation of the aluminum conductive device (1) in the clamp during welding, and improve the welding efficiency and the yield.

An electrical connection terminal and an electrical connection assembly are disclosed. The electrical connection terminal has a base, and a plurality of tabs connected to the base. The plurality of tabs are separated from each other, and each of the plurality of tabs is adapted to mate with a mating terminal in a plug-in manner. In the present invention, the electrical connection terminal adopts a plurality of parallel tabs, so the length of the electrical connection terminal and the current flow path through the electrical connection terminal are reduced. Therefore, the electrical connection terminal of the present invention has low body resistance, less heating and is more suitable for high current applications.

A tool for producing an arrangement composed of an electrical line and a contact device with a crimp sleeve includes a first press jaw unit and a guide unit. The first press jaw unit delimits a tool receptacle and receives the crimp sleeve and the electrical line. The first press jaw unit has a first press jaw with a first press surface and a second press jaw with a second press surface. The second press surface is adjustable between a first press position positioned radially inwardly and a second press position. The guide unit provides a first pressing force transmitted into the first press surface and from the first press jaw to the second press jaw. The first press surface stamps a first stamped indentation and the second press surface stamps a second stamped indentation into the crimp sleeve to crimp the crimp sleeve on the electrical line.

A tool for producing an arrangement composed of an electrical line and a contact device with a crimp sleeve includes a first press jaw unit and a guide unit. The first press jaw unit delimits a tool receptacle and receives the crimp sleeve and the electrical line. The first press jaw unit has a first press jaw with a first press surface and a second press jaw with a second press surface. The second press surface is adjustable between a first press position positioned radially inwardly and a second press position. The guide unit provides a first pressing force transmitted into the first press surface and from the first press jaw to the second press jaw. The first press surface stamps a first stamped indentation and the second press surface stamps a second stamped indentation into the crimp sleeve to crimp the crimp sleeve on the electrical line.

A cable assembly comprises a conductive cable including an exposed conductive first section having a first cross-section, and a second section adjacent the first second and having a second cross-section distinct from the first cross-section. A ferrule is positioned over the conductive cable and includes a body defining a seam formed therethrough in an axial direction. The ferrule defines a first body portion deformed into a cross-section corresponding to the first portion of the conductive cable, and a second body portion deformed into a cross-section corresponding to the second portion of the conductive cable.

A power distributor (200) with at least two incoming lines (101-103) and a method for manufacturing such a power distributor is suggested. Each incoming line comprises a conductor (106,107) and an individual screen (114). The conductors of the incoming lines are connected at a connection point (V1,V2), which is enclosed by a screen shield (201) that contacts each individual screen (114) of the incoming lines. The screen shield (201) is made from electrically conducting plastic material. Screen shields made from electrically conducting plastic material is easier to manufacture and less expensive than metal screen shields.

A communication system is included in a work string. The communication system includes a communication cable and a crimp sleeve. The communication cable has a housing with a communication line and a metal tube therein, a free line end of the communication line and a free tube end of the metal tube extending from an open end of the housing. The crimp sleeve includes a first sleeve section having a first inner diameter configured to receive the open end of the housing, a second sleeve section having a second inner diameter configured to receive the free tube end of the metal tube, and an opening configured to allow the free line end of the communication line to pass out of the crimp sleeve.

A communication system is included in a work string. The communication system includes a communication cable and a crimp sleeve. The communication cable has a housing with a communication line and a metal tube therein, a free line end of the communication line and a free tube end of the metal tube extending from an open end of the housing. The crimp sleeve includes a first sleeve section having a first inner diameter configured to receive the open end of the housing, a second sleeve section having a second inner diameter configured to receive the free tube end of the metal tube, and an opening configured to allow the free line end of the communication line to pass out of the crimp sleeve.

The height (F) of a protruding portion (7) is less than the thickness of a crimping portion (5) before crimping. If the height of the protruding portion (7) is greater than the thickness of the crimping portion, then a recess is prone to form in the inner surface of the crimping portion (5). In other words, because there is more metal flowing outwards, a recess corresponding to the metal flow is prone to form on the inner surface side. If such a recess does form, adhesion with a covered area (27) is likely to deteriorate. This is problematic because such a gap would be a path allowing the ingress of moisture. On the other hand, if the height of the protruding portion (7) is less than the thickness of the crimping portion (5) before crimping, then when the crimping portion (5) is compressed during crimping, the amount of metal flowing towards the protruding portion (7) diminishes, making it possible to suppress the formation of a receding portion on the inner surface of the crimping portion (5).