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A method for optimizing the friction, wear, and function of an injection-molded throttle valve unit, including a throttle valve housing and a throttle valve that can move in relation to it. The throttle valve housing is injection molded out of a first plastic material inside a first cavity, then tra

A method for optimizing the friction, wear, and function of an injection-molded throttle valve unit, including a throttle valve housing and a throttle valve that can move in relation to it. The throttle valve housing is injection molded out of a first plastic material inside a first cavity, then transferred to a second cavity. Bearing bushes are inserted into the throttle valve housing to constitute a hard material on hard material friction pairing between the bearing bushes and the throttle valve housing; either the bearing bushes are inserted into the throttle valve housing in a non-rotating fashion and the valve shaft rotates in relation to the bearing bushes or the bearing bushes rotate in relation to the throttle valve housing. The moving throttle valve is injection molded from a second plastic material inside the second cavity. The bearing bushes are preferably manufactured out of a metallic material and remain dimensionally stable when subjected to the injection pressure.

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We claim: 1. A method for manufacturing a throttle valve unit, including a throttle valve housing (1, 19) and a throttle valve (2) that can move in relation to it, the method comprising the process steps of: a) injection molding the throttle valve housing (1, 19) out of a first plastic material ins

We claim: 1. A method for manufacturing a throttle valve unit, including a throttle valve housing (1, 19) and a throttle valve (2) that can move in relation to it, the method comprising the process steps of: a) injection molding the throttle valve housing (1, 19) out of a first plastic material inside a first area, b) inserting at least one bearing bush (5) that contains a metallic material into the throttle valve housing (1, 19), the metallic material and the first plastic material producing a friction state between two relatively hard substances between the at least one bearing bush (5) and the throttle valve housing (1, 19), c) transferring the throttle valve housing (1, 19) produced according to process steps a) and b) to a second area that is spatially separate from the first area, and d) injection molding the moving throttle valve (2) and a valve shaft (3) in the throttle valve housing (1, 19), in one piece out of a second plastic material, inside the second area. 2. The method according to claim 1, wherein the at least one bearing bush (5) is produced by means of a deep drawing or an extrusion process, or by means of material-removing machining. 3. The method according to claim 2, wherein the forming process increases the surface hardness of the circumference surface (7) of the at least one bearing bush (5). 4. The method according to claim 3, wherein a radial contact surface (11) of the at least one bearing bush (5) produces a friction state between two relatively hard materials between the throttle valve housing section (19) in the form of a bearing shell and the circumference surface (7) of the at least one bearing bush (5). 5. The method according to claim 2, wherein the geometry of the at least one bearing bush (5) on its end opposite from the stop shoulder (6), i.e. at the axial contact surface (10), is produced by means of material-removing machining, stamping, or swaging of the bearing bush (5). 6. The method according to claim 1, wherein the throttle valve housing (1) is injection molded out of polyphenylene sulfide. 7. The method according to claim 6, wherein the stop shoulder (6) is provided with a radius greater than or equal to 0.1 mm through stamping, swaging, or material-removing machining of the at least one bearing bush (5). 8. The method according to claim 1, wherein the throttle valve housing (1) or a throttle valve housing section (19) is comprised of polyamide and the throttle valve (2), which includes a valve shaft (3) and a throttle valve flap (4), is injection molded out of PPS (polyphenylene sulfide). 9. The method according to claim 1, further comprising the step of machining a circumferential surface (7) of the at least one bearing bush (5) to a quality that corresponds to a low RZ value. 10. The method according to claim 1, wherein a friction state between two relatively hard substances exists between the at least one bearing bush (5) and a collar of a valve shaft (3) at an axial contact surface (10). 11. The method according to claim 1, wherein the at least one bearing bush (5), which has been inserted into the previously molded component comprising the throttle valve housing (1) according to process step c), has a stop shoulder (6) extending radially inward or outward. 12. The method according to claim 1, wherein during process step a), the at least one bearing bush (5) is injection molded of a metallic material, into the throttle valve housing (1) or throttle valve housing section (19). 13. The method according to claim 1, wherein the at least one bearing bush (5) remains in a dimensionally stable state during process step d). 14. The method according to claim 1, wherein the at least one bearing bush (5) is manufactured from a coated or uncoated nonferrous metal.