Coupling element and process for manufacturing such a coupling element

1 . A quick-coupling element for connecting fluid lines, said coupling element comprising: a monobloc body defining a passage extending along a longitudinal axis of the coupling element between a proximal end and a distal end, the proximal end being configured for connection to a fluid pipe and defining a proximal opening for the passage of the fluid or a channel through which the fluid flows and the distal end having a distal mouth for receiving a mating coupling element; wherein: the coupling element comprises a pusher mounted in the body and movable along the longitudinal axis between a forward position on the distal end side and a rearward position on the proximal end side; the body is provided with at least one inner radial guiding surface; the pusher is provided with at least one outer radial guiding surface configured to engage the inner radial guiding surface to guide the pusher during the movements thereof along the longitudinal axis between the forward and rearward positions thereof; the pusher has a radial size defined by the largest radial dimension thereof; a section of the proximal opening, transverse to the longitudinal axis, has a maximum dimension smaller than the radial size of the pusher; a section of the distal mouth, transverse to the longitudinal axis, has a maximum dimension less than the radial size of the pusher; the pusher is mounted captive in an internal volume of the body; and the pusher is movable, in the internal volume of the body, to a reference position, wherein the or each outer radial surface of the pusher is disengaged from any inner radial surface of the body and vice versa. 2 . The coupling element according to claim 1 , wherein, when the pusher is in the reference position, a clearance between a surface of the pusher and an inner radial surface of the body facing the surface of the pusher has a radial thickness strictly greater than the radial thickness of a guiding clearance between the outer radial surface of the pusher and the inner radial surface of the body engaged in one another. 3 . The coupling element according to claim 1 , wherein: the pusher is provided with two outer radial guiding surfaces spaced apart along the longitudinal axis; the body is provided with two inner radial guiding surfaces; each of the inner radial guiding surfaces is configured to engage with an inner radial guiding surface to guide the pusher during the movements thereof along the longitudinal axis between the forward and rearward positions thereof; and when the pusher is in the reference position, the two outer radial guiding surfaces thereof are disengaged from the two inner radial guiding surfaces of the body. 4 . The coupling element according to claim 1 , wherein: the outer radial guiding surface is inscribed in a first cylinder with a circular base; the inner radial guiding surface is inscribed in a second cylinder having a circular base; and the diameter of the first cylinder is equal to the diameter of the second cylinder, within the guiding clearance. 5 . The coupling element according to claim 1 , wherein clearance grooves are formed in the inner radial guiding surface. 6 . The coupling element according to claim 1 , wherein clearance grooves are provided in the outer radial guiding surface. 7 . The coupling element according to claim 1 , wherein: the outer radial guiding surface has a first length, measured parallel to the longitudinal axis; the inner radial guiding surface has a second length measured parallel to the longitudinal axis; and the second length is greater than or equal to the sum of the first length and a travel of the pusher between the forward and rearward positions thereof; or the first length is greater than or equal to the sum of the second length and the travel of the pusher between the forward and rearward positions thereof. 8 . The coupling element according to claim 1 , further comprising: a hollow channel defining a passage for fluids and extending along a longitudinal axis of the coupling element, between a front part configured for the fitting on of a hose and a rear part to be coupled to the fluid pipe; the monobloc body extending longitudinally about the hollow channel and secured thereto, defining a mouth for access to the front part of the hollow channel; a first jaw, movable in rotation about a first axis of rotation perpendicular to and offset from the longitudinal axis between; a clamping position wherein the first jaw presses the hose against the front part of the hollow channel in a zone comprised, radially to the longitudinal axis between the longitudinal axis and the first axis of rotation and bounded along the longitudinal axis by a boundary plane, perpendicular to the longitudinal axis and spaced from the first axis of rotation by a first distance, measured parallel to the longitudinal axis, which is non-zero; and a retracted position wherein the first jaw does not press the hose against the forward part of the hollow channel; a maneuvering member, accessible from outside the body, for moving the first jaw between the clamping position thereof and the released position thereof; a member for elastic return of the pusher toward the forward position thereof; wherein the pusher is trapped inside the internal volume of the body, around the hollow channel and provided with a first support surface against the first jaw; wherein the first support surface of the pusher is configured to exert on the first jaw, a force for moving the first jaw from the released position thereof to the clamping position thereof; wherein the first support surface is arranged opposite the first axis of rotation in relation to the longitudinal axis; and wherein, when the first jaw is in the clamping position thereof, with the first support surface against the first jaw, a first radial distance, measured perpendicular to the longitudinal axis, between the first axis of rotation and a contact point of the force-receiving surface of the first jaw and the first support surface has a value greater than the value of the first distance. 9 . A method of manufacturing a quick-coupling element for connecting fluid pipes, according to claim 1 , wherein the method comprises a step consisting of: a) simultaneously producing by additive manufacturing at least part of the monobloc body and the pusher, while the pusher is in the reference position thereof.