Method for producing a valve housing and valve

The invention claimed is: 1. A method for producing a valve housing ( 1 ) having a plastic body ( 2 ) having at least one radially oriented fluid opening ( 5 ) which is protected against passage of dirt by means of a screen ( 6 ), the method comprising the following steps: providing the plastic body ( 2 ) having the at least one radially oriented fluid opening ( 5 ); fixing the screen ( 6 ) to the plastic body ( 2 ) by melting a plastic body surface ( 14 ) of the plastic body ( 2 ) in a fixing area ( 13 ) by externally applying ultrasound to provide a melted plastic body surface ( 14 ) and applying radially inwardly directed contact pressure to the screen ( 6 ) to press the screen ( 6 ) radially inwardly against the fixing area ( 13 ); and cooling the fixing area ( 13 ), thus resolidifying the melted plastic body surface ( 14 ); wherein the screen ( 6 ) is band-shaped and is laid around the plastic body ( 2 ), across a circumferential angle of at least 90° around the plastic body ( 2 ), prior to the application of ultrasound, and wherein the screen ( 6 ) is made of a material which at least partially melts during application of ultrasound and wherein the application of ultrasound causes a material-bonded welded connection to be produced between the screen ( 6 ) and the plastic body ( 2 ). 2. The method according to claim 1 , wherein ultrasound is applied via the screen ( 6 ) by means of a contact ram for applying the radially inwardly directed contact pressure to the screen ( 6 ) at the same time as the screen ( 6 ) is being pressed against the fixing area ( 13 ). 3. The method according to claim 2 , wherein the contact ram has a contact surface which serves to come into contact with the screen ( 6 ) and which is shaped to match the fixing area ( 13 ). 4. The method according to claim 1 , wherein the screen ( 6 ) is sunk into, and partially embedded in, the molten material of the fixing area. 5. The method according to claim 1 , wherein the screen ( 6 ) is disposed above an outer circumferential groove ( 7 ) which has the at least one radially oriented fluid opening ( 5 ), and fixing areas ( 13 ) are formed on both groove sides of the plastic body ( 2 ) on each ring shoulder ( 11 , 12 ), the screen ( 6 ) being fixed to said fixing areas ( 13 ) by the application of ultrasound. 6. The method according to claim 5 , wherein the at least one radially oriented fluid opening ( 5 ) comprises multiple radially oriented fluid openings, distributed across the circumference, and wherein the outer circumferential groove ( 7 ) is configured as a fully circumferential ring channel. 7. The method according to claim 1 , wherein the plastic body ( 2 ) is made of glass fiber reinforced plastic or of plastic free of glass fibers. 8. The method according to claim 1 , wherein the plastic body ( 2 ) is an injection-molded plastic body ( 2 ). 9. The method according to claim 1 , wherein the circumferential angle is at least 180°. 10. The method according to claim 1 , wherein the circumferential angle is at least 270°. 11. The method according to claim 1 , wherein the circumferential angle is at least 360°. 12. A valve having a valve housing ( 1 ) which is produced by a method according to claim 1 , the valve housing ( 1 ) having a plastic body ( 2 ) having at least one radially oriented fluid opening ( 5 ) which is protected against passage of dirt by means of a screen ( 6 ), a vent port and/or a pressure port and/or a working port assigned to said fluid opening ( 5 ), wherein the screen ( 6 ) is band-shaped and is laid around the plastic body ( 2 ), across a circumferential angle of at least 90° around the plastic body ( 2 ), and wherein the screen ( 6 ) is made of plastic material and fixed to a fixing area ( 13 ) of the plastic body surface ( 14 ), said fixing area ( 13 ) having been molten by application of ultrasound and resolidified. 13. The valve according to claim 12 , wherein the valve has coil means which can be energized to displace an armature and/or a valve body ( 4 ) in the valve housing ( 1 ). 14. The valve according to claim 12 , wherein the screen ( 6 ) is disposed radially outside above an outer circumferential groove ( 7 ) which has the at least one radially oriented fluid opening ( 5 ), and fixing areas ( 13 ) are formed on both groove sides of the plastic body ( 2 ), on each ring shoulder ( 11 , 12 ), the screen ( 6 ) being fixed to said fixing areas ( 13 ) by the application of ultrasound. 15. The valve according to claim 14 , wherein the at least one radially oriented fluid opening ( 5 ) comprises multiple radially oriented fluid openings ( 5 ) distributed across the circumference, and wherein the outer circumferential groove ( 7 ) is configured as a fully circumferential ring channel. 16. The valve according to claim 12 , wherein the at least one radially oriented fluid opening ( 5 ) is a wall-side fluid opening ( 5 ) and wherein the screen is embedded in and/or welded to the fixing area ( 13 ).