Ion exchanger for a cooling circuit

What is claimed is: 1. A method for producing an ion exchanger for a coolant, the method comprising the following steps: providing a first plastic material for injection molding; providing at least one porous filter element have numerous pores through which the coolant flows and whose diameter is sized to retain an ion exchange medium, the at least one porous filter element having rim side pores; inserting the least one porous filter element in an injection molding tool; injection molding the first plastic material into a mold tool together with a first porous filter element of the at least one porous filter element, forming an elongated circumferentially closed tubular housing having an inlet port formed on a first axial end of the tubular housing and an outlet port formed on an opposing axial end of the tubular housing; simultaneously with the injection molding step, embedding the first porous filter element into plastic material in the outlet of the housing at the same time, in the same step and simultaneously with the molding of the first plastic material into the elongated tubular housing in the injection molding step, such that the first plastic material penetrates into the rim side pores at a rim of the first porous filter element so that a form-fit connection with the first plastic material of the housing is produced; simultaneously with the injection molding step, embedding a second porous filter element of the at least one porous filter element into the first plastic material in the inlet of the housing at the same time, in the same step and simultaneously with the molding the elongated tubular housing in the injection molding step, such that the first plastic material penetrates into the rim side pores at a rim of the second porous filter element so that a form-fit connection with the first plastic material of the housing is produced; arranging an ion exchanger medium within the housing. 2. The method according to claim 1 , wherein in the step of providing at least one porous filter element, the at least one porous filter element is at least one plastic filter element; wherein in practicing the of injection molding, applying an increased pressure in the injection molding process to reduce a pore size of the at least one porous plastic filter element. 3. The method according to claim 2 , wherein in the step of providing at least one porous filter element, the at least one porous filter element is comprised of a second plastic material; and wherein the first plastic material of the housing and the second plastic material have at least approximately the same melting point.