Cooling element for injection valve

1 . A cooling element ( 38 ; 40 ) for an injection valve ( 1 ; 41 ), the cooling element comprising: a hollow region for receiving at least one section ( 1 a , 1 b ; 41 a, 41 b ) of the injection valve ( 1 ; 41 ), a cooling plate ( 8 ) which runs around the hollow region, and an end plate ( 7 ) which is arranged on an end side of the injection valve ( 1 ; 41 ) and has at least one injection opening ( 13 ) which makes it possible to spray fluid out of the injection valve ( 1 ; 41 ) through the end plate ( 7 ); characterized in that the end plate ( 7 ) has at least one region ( 7 a ) which is shaped in a bowl-like manner with an end wall ( 7 c ) and at least one side wall ( 7 b ) and is configured for receiving an injection-side section ( 1 a ; 41 a ) of the injection valve ( 1 ; 41 ), and the cooling plate ( 8 ) and the end plate ( 7 ) are connected to one another in a fluid-tight manner, with the result that, in a state in which a section ( 1 a, 1 b; 41 a, 41 b ) of an injection valve ( 1 ; 41 ) is arranged in the hollow region, a cooling volume ( 36 ) which runs around the section ( 1 a, 1 b; 41 a, 41 b ) of the injection valve ( 1 ; 41 ) is delimited by the end plate ( 7 ), the cooling plate ( 8 ) and the injection valve ( 1 ; 41 ). 2 . The cooling element ( 38 ; 40 ) as claimed in claim 1 , the cooling plate ( 8 ) and the end plate ( 7 ) being connected to one another in a fluid-tight manner by way of welding. 3 . The cooling element ( 38 ; 40 ) as claimed in claim 1 , which additionally has a connector piece ( 27 ) which is configured for receiving a rear end region ( 1 b ; 41 b ) of the injection valve ( 1 ; 41 ), which rear end region ( 1 b ; 41 b ) lies opposite the injection-side section ( 1 a; 41 a ). 4 . The cooling element ( 38 ; 40 ) as claimed in claim 3 , the connector piece ( 27 ) having a feed line ( 27 a ) which is configured to feed fluid to be injected to the injection valve ( 1 ; 41 ). 5 . The cooling element ( 38 ; 40 ) as claimed in claim 3 , at least one feed stub ( 9 a ) and/or one outlet stub ( 9 b ) being configured on the cooling plate ( 8 ), which feed stub ( 9 a ) and/or outlet stub ( 9 b ) makes it possible to conduct cooling fluid into and out of the cooling volume ( 36 ), respectively. 6 . The cooling element ( 38 ; 40 ) as claimed in claim 5 , the connector piece ( 27 ) being configured to be mounted on the feed stub ( 9 a ) and/or outlet stub ( 9 b ). 7 . An injection apparatus having a cooling element ( 38 ; 40 ) as claimed in claim 1 , and having an injection valve ( 1 ; 41 ), an injection-side section ( 1 a; 41 a ) of the injection valve ( 1 ; 41 ) being arranged in the bowl-like region ( 7 a ) of the end plate ( 7 ). 8 . The injection apparatus as claimed in claim 7 , the injection-side section ( 1 a; 41 a ) of the injection valve ( 1 ; 41 ) being connected to the bowl-like region ( 7 a ) in a fluid-tight manner by way of welding. 9 . The injection valve ( 1 ) as claimed in claim 7 , at least one region ( 21 ) of the cooling plate ( 8 ) bearing against the injection valve ( 1 ), and the cooling volume ( 36 ) being sealed in a fluid-tight manner by way of at least one O-ring ( 17 ) which is arranged between the injection valve ( 1 ) and the region ( 21 ) of the cooling plate ( 8 ). 10 . The injection valve ( 41 ) as claimed in claim 7 , the injection valve ( 41 ) having at least two metal sleeves ( 2 , 3 ) which are arranged coaxially with respect to one another and are connected to one another in a fluid-tight manner by way of welding. 11 . The cooling element ( 38 ; 40 ) as claimed in claim 1 , the cooling plate ( 8 ) and the end plate ( 7 ) being connected to one another in a fluid-tight manner by laser welding. 12 . The cooling element ( 38 ; 40 ) as claimed in claim 4 , at least one feed stub ( 9 a ) and/or one outlet stub ( 9 b ) being configured on the cooling plate ( 8 ), which feed stub ( 9 a ) and/or outlet stub ( 9 b ) makes it possible to conduct cooling fluid into and out of the cooling volume ( 36 ), respectively. 13 . The cooling element ( 38 ; 40 ) as claimed in claim 12 , the connector piece ( 27 ) being configured in such a way that it can be mounted on the feed stub ( 9 a ) and/or outlet stub ( 9 b ). 14 . An injection apparatus having a cooling element ( 38 ; 40 ) as claimed in claim 1 and having an injection valve ( 1 ; 41 ) which is configured for injecting a fluid reducing agent into an exhaust gas section of an internal combustion engine, an injection-side section ( 1 a; 41 a ) of the injection valve ( 1 ; 41 ) being arranged in the bowl-like region ( 7 a ) of the end plate ( 7 ). 15 . The injection apparatus as claimed in claim 14 , the injection-side section ( 1 a; 41 a ) of the injection valve ( 1 ; 41 ) being connected to the bowl-like region ( 7 a ) in a fluid-tight manner by way of laser welding. 16 . The injection valve ( 1 ) as claimed in claim 14 , at least one region ( 21 ) of the cooling plate ( 8 ) bearing against the injection valve ( 1 ), and the cooling volume ( 36 ) being sealed in a fluid-tight manner by way of at least one O-ring ( 17 ) which is arranged between the injection valve ( 1 ) and the region ( 21 ) of the cooling plate ( 8 ). 17 . The injection valve ( 41 ) as claimed in claim 14 , the injection valve ( 41 ) having at least two metal sleeves ( 2 , 3 ) which are arranged coaxially with respect to one another and are connected to one another in a fluid-tight manner by way of laser welding. 18 . The cooling element ( 38 ; 40 ) as claimed in claim 1 , at least one feed stub ( 9 a ) and/or one outlet stub ( 9 b ) being configured on the cooling plate ( 8 ), which feed stub ( 9 a ) and/or outlet stub ( 9 b ) makes it possible to conduct cooling fluid into and out of the cooling volume ( 36 ), respectively.