Plug connector

Thus, having described the invention, what is claimed is: 1 . A plug connector comprising a first connector and a second connector, wherein the first connector and the second connector can be connected through a joining movement along a main axis of extension of the plug connector, wherein a securing element which is associated with the first connector can be displaced along the main axis of extension between a locking position (A) and an unlocking position (B), wherein a fixing element is provided in order to fix the first connector to the second connector through interaction with a counter-fixing element in order to block a disconnecting movement, wherein the fixing element is moveable in a radial direction (III), wherein the securing element is, directly or indirectly, in operative connection with the fixing element, such that a displacement of the securing element from the locking position (A) into the unlocking position (B) causes a displacement of the fixing element at least in a radial direction (III), and wherein, by displacing the securing element from the locking position (A) into the unlocking position (B), the fixing element of the counter-fixing element can be released through a movement in a radial direction (III) in order to permit a disconnecting movement in an axial direction (II) in order to separate the first connector from the second connector, such that in the locking position (A) the securing element is designed to permit the fixing element a movement in a radial direction (III) in order to make possible a joining movement in an axial direction (I) in order to connect the first connector with the second connector. 2 . The plug connector of claim 1 , wherein in the locking position (A) the fixing element can be moved by a first travel length (L 1 ), at least in a radial direction (III), and by displacing the securing element from the locking position (A) into the unlocking position (B) the fixing element can be displaced in a radial direction (III) by a second travel length (L 2 ), wherein the second travel length (L 2 ) is greater than the first travel length (L 1 ). 3 . The plug connector of claim 1 , wherein the fixing element has a snap-in hook and the counter-fixing element has a counter-snap-in hook designed to interact with the snap-in hook in order to form a snap-locking connection. 4 . The plug connector of claim 1 , wherein a first insertion region and a second insertion region are provided, wherein the second insertion region is designed such that, through interaction with the first insertion region, this causes the movement of the fixing element in a radial direction (III), wherein, in particular, the first insertion region is associated with the first connector and the second insertion region is associated with the second connector. 5 . The plug connector of claim 1 , wherein the securing element and/or the fixing element is manufactured from an electrically conductive material. 6 . The plug connector of claim 5 , wherein the securing element is connected with an outer conductor of the plug connector in an electrically conductive manner via at least one shield contact element. 7 . The plug connector of claim 1 , wherein a withdrawal bevel which is at least partially in operative connection with the securing element is provided which, through interaction with a withdrawal contact surface, causes the movement of the fixing element in the direction of the third direction (III). 8 . The plug connector of claim 7 , wherein the withdrawal bevel and the withdrawal contact surface are associated with the first connector. 9 . The plug connector of claim 8 , wherein the withdrawal bevel is formed on the fixing element. 10 . The plug connector of claim 8 , wherein the withdrawal contact surface is formed on the securing element. 11 . The plug connector of claim 1 , wherein the securing element is connected undetachably with a main plug body of the first connector. 12 . The plug connector of claim 1 , wherein the securing element comprises a securing sleeve. 13 . A first connector for a plug connector comprising: a joining movement connecting the first connector to a second connector along a main axis of extension of the plug connector; a securing element which is associated with the first connector displaced along the main axis of extension between a locking position (A) and an unlocking position (B); and a fixing element fixing the first connector to the second connector through interaction with a counter-fixing element in order to block a disconnecting movement; wherein the fixing element is moveable in a radial direction (III); wherein the securing element is, directly or indirectly, in operative connection with the fixing element, such that a displacement of the securing element from the locking position (A) into the unlocking position (B) causes a displacement of the fixing element at least in a radial direction (III), and wherein, by displacing the securing element from the locking position (A) into the unlocking position (B), the fixing element of the counter-fixing element can be released through a movement in a radial direction (III) in order to permit a disconnecting movement in an axial direction (II) in order to separate the first connector from the second connector, such that in the locking position (A) the securing element is designed to permit the fixing element a movement in a radial direction (III) in order to make possible a joining movement in an axial direction (I) in order to connect the first connector with the second connector. 14 . A second connector for a plug connector comprising: a joining movement connecting the second connector to a first connector along a main axis of extension of the plug connector; a securing element associated with the first connector displaceable along the main axis of extension between a locking position (A) and an unlocking position (B); and a fixing element fixing the second connector to the first connector through interaction with a counter-fixing element in order to block a disconnecting movement; wherein the fixing element is moveable in a radial direction (III); wherein the securing element is, directly or indirectly, in operative connection with the fixing element, such that a displacement of the securing element from the locking position (A) into the unlocking position (B) causes a displacement of the fixing element at least in a radial direction (III), and wherein, by displacing the securing element from the locking position (A) into the unlocking position (B), the fixing element of the counter-fixing element can be released through a movement in a radial direction (III) in order to permit a disconnecting movement in an axial direction (II) in order to separate the first connector from the second connector, such that in the locking position (A) the securing element is designed to permit the fixing element a movement in a radial direction (III) in order to make possible a joining movement in an axial direction (I) in order to connect the first connector with the second connector. 15 . A satellite equipped with a plug connector, said plug connector comprising: a first connector and a second connector, wherein the first connector and the second connector can be connected through a joining movement along a main axis of extension of the plug connector, wherein a securing element which is associated with the first connector can be displaced along the main axis of extension between a locking position (A) and an unlocking position (B), wherein a fixing element is provided in or