Viscous coupling for a coolant pump

The invention claimed is: 1. A viscous coupling for a coolant pump, comprising: a housing part and an input body rotatable relative to the housing part, the housing part and the input body at least partially delimiting an interior space; a shaft that is rotatable relative to the housing part and on which an output body arranged in the interior space is formed for conjoint rotation with the shaft; a coupling region formed between the output body and the input body, the coupling region configured to hold a viscous fluid to assure a coupling between the input body and the output body; a holding chamber for collecting coolant leaking from the coolant pump; a housing wall conformed integrally with the housing part, the housing wall partially delimiting the holding chamber; and an actuator housing and an electric actuator therein by which a degree of coupling between the input body and the output body is adjustable; wherein the actuator housing at least partially covers the holding chamber; and wherein the housing part has an opening through which the shaft passes, wherein a bearing collar surrounding the opening protrudes in an axial direction of the shaft away from the housing part, and the bearing collar is rotatably mounted on the shaft and delimits the holding chamber radially inwardly. 2. The viscous coupling according to claim 1 , wherein the housing part is a housing plate delimiting the interior space in an axial direction of the shaft, wherein the housing wall protrudes away from the housing plate in the axial direction such that the housing wall radially outwardly delimits the holding chamber. 3. The viscous coupling according to Claim 1 , wherein at least one of: a first through hole is provided in the housing wall to form an outer vent; and a second through hole is provided in the bearing collar to form an inner vent. 4. The viscous coupling according to claim 3 , further comprising an extension protruding in the axial direction on the actuator housing and closing the first through hole. 5. The viscous coupling according to claim 1 , wherein, in a view along the axial direction, the actuator housing has a geometry of an annular body and is formed with a through hole through which the shaft passes, wherein the electric actuator includes an electric coil having a coil winding extending circumferentially around the through hole. 6. The viscous coupling according to claim 1 , further comprising a sealing structure formed on a side of the actuator housing facing the housing part to seal the holding chamber off from an external environment. 7. The viscous coupling according to claim 6 , wherein the sealing structure is sprayed onto the actuator housing. 8. The viscous coupling according to claim 6 , wherein the sealing structure is embodied as a sealing ring, and is made from an elastic material, or is embodied as a sealing plug. 9. The viscous coupling according to claim 1 , wherein the housing wall has a first wall section, which has a geometry of a circle segment in a cross section perpendicular to the axial direction, and a second wall section, which mates with the first wall section to form the housing wall and is curved. 10. The viscous coupling according to claim 1 , wherein the input body is constructed in at least two parts including a pot-shaped base body and a cover which closes the base body, the base body arranged in the axial direction between the housing part and the cover, wherein an external thread is formed on the cover, and by which the cover is screwed into a mating internal thread provided on the base body. 11. The viscous coupling according to claim 10 , wherein the cover is made from aluminium, and the base body is made from a steel. 12. The viscous coupling according to claim 10 , further comprising a sheave that is one of: (i) attached to the cover by a threaded connection for conjoint rotation therewith to transfer an external turning moment radially outwards, or (ii) conformed integrally on the base body to transfer the external turning moment radially outwards to the base body. 13. The viscous coupling according to claim 10 , further comprising an annular magnetic insulator made from a stainless steel arranged on a pot bottom of the pot-shaped base body, extending in a circumferential direction of the pot bottom, dividing the pot bottom into a radially inner and a radially outer bottom part, and connected to the two bottom parts via a laser weld joint. 14. The viscous coupling according to claim 13 , wherein the annular magnetic insulator is a deep-drawn sheet metal formed part or a component turned from a blank. 15. The viscous coupling according to claim 13 , further comprising a load relieving groove conformed inside the magnetic insulator and that runs around an entire circumference thereof. 16. The viscous coupling according to claim 1 , wherein the housing wall is embodied as a peripheral wall and has a round geometry in a cross section perpendicular to the axial direction. 17. The viscous coupling according to claim 16 , wherein the housing wall delimits the holding chamber along a circumferential direction. 18. The viscous coupling according to claim 1 , further comprising a rib structure having ribs and that protrudes away from the housing part in the axial direction, wherein the housing wall, is arranged between two adjacent ribs, or wherein the rib structure forms a part of the housing wall. 19. A coolant pump for circulating a coolant, comprising: a viscous coupling having: a housing part and an input body rotatable relative to the housing part, the housing part and the input body at least partially delimiting an interior space; a shaft that is rotatable relative to the housing part and on which an output body arranged in the interior space is formed for conjoint rotation with the shaft; a coupling region formed between the output body and the input body, the coupling region configured to hold a viscous fluid to assure a coupling between the input body and the output body; a holding chamber for collecting coolant leaking from the coolant pump; a housing wall conformed integrally with the housing part, the housing wall partially delimiting the holding chamber; and an actuator housing and an electric actuator therein by which a degree of the coupling between the input body and the output body is adjustable; and moving blades arranged on the shaft for conjoint rotation therewith to circulate the coolant; wherein the actuator housing at least partially covers the holding chamber; and wherein the input body is constructed in at least two parts including a pot-shaped base body and a cover which closes the base body, the base body arranged in the axial direction between the housing part and the cover, wherein an external thread is formed on the cover, and by which the cover is screwed into a mating internal thread provided on the base body.