A clamping device (1), for coupling a sensor cable (2) to an electrical contact, has a circumferential, elastically deformable frame (3). The frame has an outer surface (5), an inner surface (6) facing an inner area (4), a first end face (7) and an opposite second end face (8). A contact device (9) is held at the frame and extends into the inner area. A counter-holding device (10), at the frame, has a counter-holding element (11). The contact device and the counter-holding device form a receiving space for holding the electrical contact in a holding position. A relative movement into a first released position is brought about by a pressing on both sides from the outside against the outer surface on a first frame axis (12). A second released position is provided by pressing on both sides against the frame outer surface on a second frame axis (13).

A plug connector for electrically connecting a tag connector to an electrical line of a motor-driven garden and/or forestry working apparatus includes a tag connector receptacle portion and a line receptacle portion. The tag connector receptacle portion has a first surface-clamping leg, a second surface-clamping leg, a first peripheral guiding blade and a second peripheral guiding blade, wherein the surface-clamping legs are disposed so as to be opposite one another and wherein the peripheral guiding blades are disposed so as to be opposite one another. The tag connector receptacle portion is configured for elastically enlarging a leg spacing between the surface-clamping legs and for plastically enlarging a blade spacing between the peripheral guiding blades by interaction between the peripheral guiding blades and the tag connector for receiving the tag connector and for contacting and for impinging with a clamping force opposite surfaces of the received tag connector by the surface-clamping legs, and for contacting opposite peripheries of the received tag connector by the peripheral guiding blades for securing the received tag connector against being released from the tag connector receptacle portion and for electrical contacting. The line receptacle portion is electrically connected to the tag connector receptacle portion. The line receptacle portion is configured for receiving the electrical line and for securing the received line against being released from the line receptacle portion and for electrical contacting.

A plug connector for electrically connecting a tag connector to an electrical line of a motor-driven garden and/or forestry working apparatus includes a tag connector receptacle portion and a line receptacle portion. The tag connector receptacle portion has a first surface-clamping leg, a second surface-clamping leg, a first peripheral guiding blade and a second peripheral guiding blade, wherein the surface-clamping legs are disposed so as to be opposite one another and wherein the peripheral guiding blades are disposed so as to be opposite one another. The tag connector receptacle portion is configured for elastically enlarging a leg spacing between the surface-clamping legs and for plastically enlarging a blade spacing between the peripheral guiding blades by interaction between the peripheral guiding blades and the tag connector for receiving the tag connector and for contacting and for impinging with a clamping force opposite surfaces of the received tag connector by the surface-clamping legs, and for contacting opposite peripheries of the received tag connector by the peripheral guiding blades for securing the received tag connector against being released from the tag connector receptacle portion and for electrical contacting. The line receptacle portion is electrically connected to the tag connector receptacle portion. The line receptacle portion is configured for receiving the electrical line and for securing the received line against being released from the line receptacle portion and for electrical contacting.

A socket connector assembly is provided and includes a body, a socket connector and a force fit assembly. The socket connector is positioned in the body and includes a socket frame. The socket frame includes an upper side, a lower side positioned opposite the upper side, and a spring assembly connecting the upper side and lower side such that the upper side is moveable relative to the lower side along a height direction. The force fit assembly secures the body to the socket connector.

A circuit board arrangement, and method for assembling at least one connection element, provides a first circuit board and a second circuit board arranged in a parallel orientation to one another in different planes, and at least one rigid connection element communicates between the first and the second circuit boards and the connection element has an exterior housing which encloses an internal conductor part, and the exterior housing constitutes a first electrical path between the first and second circuit boards, and the internal conductor part constitutes a second electrical path between the first and second circuit boards.

A plug connector for electrically connecting a tag connector to an electrical line of a motor-driven garden and/or forestry working apparatus includes a tag connector receptacle portion and a line receptacle portion. The tag connector receptacle portion has a first surface-clamping leg, a second surface-clamping leg, a first peripheral guiding blade and a second peripheral guiding blade, wherein the surface-clamping legs are disposed so as to be opposite one another and wherein the peripheral guiding blades are disposed so as to be opposite one another. The tag connector receptacle portion is configured for elastically enlarging a leg spacing between the surface-clamping legs and for plastically enlarging a blade spacing between the peripheral guiding blades by interaction between the peripheral guiding blades and the tag connector for receiving the tag connector and for contacting and for impinging with a clamping force opposite surfaces of the received tag connector by the surface-clamping legs, and for contacting opposite peripheries of the received tag connector by the peripheral guiding blades for securing the received tag connector against being released from the tag connector receptacle portion and for electrical contacting. The line receptacle portion is electrically connected to the tag connector receptacle portion. The line receptacle portion is configured for receiving the electrical line and for securing the received line against being released from the line receptacle portion and for electrical contacting.

A plug connector for electrically connecting a tag connector to an electrical line of a motor-driven garden and/or forestry working apparatus includes a tag connector receptacle portion and a line receptacle portion. The tag connector receptacle portion has a first surface-clamping leg, a second surface-clamping leg, a first peripheral guiding blade and a second peripheral guiding blade, wherein the surface-clamping legs are disposed so as to be opposite one another and wherein the peripheral guiding blades are disposed so as to be opposite one another. The tag connector receptacle portion is configured for elastically enlarging a leg spacing between the surface-clamping legs and for plastically enlarging a blade spacing between the peripheral guiding blades by interaction between the peripheral guiding blades and the tag connector for receiving the tag connector and for contacting and for impinging with a clamping force opposite surfaces of the received tag connector by the surface-clamping legs, and for contacting opposite peripheries of the received tag connector by the peripheral guiding blades for securing the received tag connector against being released from the tag connector receptacle portion and for electrical contacting. The line receptacle portion is electrically connected to the tag connector receptacle portion. The line receptacle portion is configured for receiving the electrical line and for securing the received line against being released from the line receptacle portion and for electrical contacting.

A clamping device (1), for coupling a sensor cable (2) to an electrical contact, has a circumferential, elastically deformable frame (3). The frame has an outer surface (5), an inner surface (6) facing an inner area (4), a first end face (7) and an opposite second end face (8). A contact device (9) is held at the frame and extends into the inner area. A counter-holding device (10), at the frame, has a counter-holding element (11). The contact device and the counter-holding device form a receiving space for holding the electrical contact in a holding position. A relative movement into a first released position is brought about by a pressing on both sides from the outside against the outer surface on a first frame axis (12). A second released position is provided by pressing on both sides against the frame outer surface on a second frame axis (13).

A terminal is mounted on a mounting surface having a stud bolt standing on the mounting surface. The terminal having: a contact portion configured to contact with the mounting surface; an insertion portion allowing the stud bolt to be inserted to the insertion portion; and an elastic portion connected to the contact portion and extending in a direction to leave the mounting surface. The elastic portion is configured to urge the contact portion elastically toward the mounting surface when he terminal touches a fixture engaged with the stud bolt.

A connection terminal for connecting a first conductor and a second conductor, the connection terminal including: a connection configured to be connected to the first conductor; an arc-shaped fitting that extends from the connection, and is configured to be fitted to, while being in surface contact with, a tubular outer circumferential surface of the second conductor over a half of the circumference thereof, with application of restoring force after elastic deformation; and a pair of extensions that extend from two ends, in a circumferential direction, of the arc-shaped fitting, and are curved to a side opposite to a side to which the arc-shaped fitting is curved.