Plug-type connector for media lines

The invention claimed is: 1. A plug-type connector, for hose and/or pipe connections, including a plug part with a plug shaft having a collar, the plug-type connector comprising: a coupling part having a receiving opening defining a central longitudinal axis and into which the plug part is insertable in a plug-in direction along the longitudinal axis, and a radially slotted retaining clip that is resiliently elastic in regions and includes at least two spring arms, the retaining clip having a pre-assembly position on the coupling part that assumes an insertion position for the plug part in which the plug part is insertable through the retaining clip into the receiving opening, and the retaining clip having an assembly position on the coupling part that assumes a retaining position for the inserted plug part in which the plug part with its collar is blocked in the receiving opening in a positive locking manner by the retaining clip against being pulled out of the receiving opening, wherein the basic shape of the retaining clip, when viewed in a direction of the longitudinal axis is a U-shape with legs realized as two pairs of diametrically opposed spring arms arranged one behind the other in the longitudinal direction, the two pairs of spring arms are longitudinally separated from one another by a slot and are resiliently elastic in both a radial direction and the longitudinal direction, wherein a first pair of the spring arms blocks in the plug part in the retaining position in a positive locking manner against being pulled out of the receiving opening and a second pair of the spring arms holds the retaining clip in a captive manner in the coupling part both in the pre-assembly position and in the assembly position; the first pair of the spring arms being located on a side of the retaining clip that faces the plug-in direction of the plug part when the retaining clip is in the insertion position and in the retaining position, each spring arm of the first pair of spring arms including an inclined surface, wherein the inclined surfaces separate in opposition to the plug part being moved in the plug-in direction for interaction with the collar of the plug part, the inclined surfaces in each case being arranged on a side of the spring arms that faces the plug-in direction of the plug part, the inclined surfaces each being formed as at least two part-surfaces each of which defines a divergence angle relative to the longitudinal axis and facing in opposition to the plug-in direction of the plug part, in each case a first part-surface of the inclined surface is situated in the vicinity of a free end of the spring arm and includes a first divergence angle and a second part-surface of the inclined surface is arranged in a central region of the spring arm and includes a second divergence angle, the first divergence angle being smaller than the second divergence angle: wherein differences between the divergence angles is within the range of between 10° and 20°; and wherein guide pins for engagement in complementary guide slots of the coupling part are provided on each of the spring arms that face an end wall of the coupling part, that faces the plug-in direction of the plug part the guide pins each being located in a central region of the spring arms. 2. The plug-type connector as claimed in claim 1 , wherein the pre-assembly position and the assembly position of the retaining clip are aligned coaxially with respect to one another and to the longitudinal axis of the coupling part, wherein the retaining clip in the pre-assembly position comprises a clearance for a radial movement. 3. The plug-type connector as claimed in claim 1 , wherein the retaining clip is a one piece injection molded part produced from plastics material. 4. The plug-type connector as claimed in claim 1 , wherein an actuating surface of the retaining clip is formed as a connecting region between the spring arms on a side of the spring arms located away from the free ends of the spring arms. 5. The plug-type connector as claimed in claim 1 , wherein longitudinal guide webs are provided on each of the spring arms that face an end wall of the coupling part that faces the plug-in direction of the plug part, the longitudinal webs being directed in a secant manner to the coupling part and interact with complementary guides provided on the coupling part. 6. The plug-type connector as claimed in claim 5 , wherein the longitudinal guide webs are arranged on both sides of a connecting region where the spring arms are connected together. 7. The plug-type connector as claimed in claim 5 , wherein the longitudinal guide webs are each arranged on radially inwardly directed projections of the spring arms. 8. The plug-type connector as claimed in claim 1 , wherein cams with tips directed inwardly toward one another are provided on each on the spring arms that face away from an end wall of the coupling part that faces the plug-in direction of the plug part. 9. The plug-type connector as claimed in claim 1 , wherein the coupling part includes a sleeve part and a receiving body in a ring shape for the retaining clip, the sleeve part and the receiving body being connected together are connected together in an assembled state, wherein one of the sleeve part and the receiving body are realized as an injection molded part formed of a plastic material. 10. The plug-type connector as claimed in claim 9 , wherein a sealing package is provided in the sleeve part of the coupling part, the sealing package including two sealing rings and a spacer ring arranged there between. 11. The plug-type connector as claimed in claim 9 , wherein the receiving body forms a housing having hollow cylindrical shape closed in each case at respective end walls of the hollow cylindrical shape, an insertion opening and an outlet opening are provided on opposite sides of the housing for the through-passage of the retaining clip. 12. The plug-type connector as claimed in claim 1 , wherein the guide slots are situated in a receiving body of the coupling part that is configured to receive the retaining clip. 13. The plug-type connector as claimed in claim 12 , wherein each of the guide slots includes a control contour, the control contour and the guide pins cooperating to delimit insertion movement and extension movement of the retaining clip transversely to the plug-in direction of the plug part, and when the retaining clip is moved transversely to the plug-in direction of the plug part the control contour and the guide pins cooperating to cause the spring arms to move radially outward or radially inward. 14. The plug-type connector as claimed in claim 12 , wherein a bend point is provided in a portion of the guide slots that leads radially outward and controls an opening movement of the retaining clip, the bend portion configured to cooperate with the guide pins and increase a force acting on an actuating surface that is to be expended for opening of the retaining clip, and the bend portion and guide portions additionally configured to create an acoustic signal. 15. The plug-type connector as claimed in claim 9 , wherein on an inside of the end wall of the receiving body there are provided guides that interact with complementary guide webs provided on the spring arms. 16. The plug-type connector as claimed in claim 11 , wherein a blocking element, with a counter contour for interaction with cams provided at ends of the spring arms, is provided in a middle region of the outlet opening of the coupling part, wherein the cams and the blocking element define a positive locking and non-positive locking connecti