Heat exchanger

The invention claimed is: 1. A PTC heat exchanger comprising at least one PTC electrical resistance heating element, at least two conductors comprising conductor plates, connected in electrically conductive fashion to the at least one PTC electrical resistance heating element in order to conduct electrical current through the at least one PTC electrical resistance heating element and thereby heat the PTC electrical resistance heating element, at least one heat-conducting element for transmitting heat from the at least one PTC electrical resistance heating element to a fluid to be heated, at least one electrical insulation element which electrically insulates the at least two conductors, at least one tube having a tube width, two wide side walls each having a wide side wall thickness, and two narrow side walls each having a narrow side wall thickness, wherein the at least two conductors and the at least one PTC electrical resistance heating element are arranged within a cavity delimited by the tube, wherein the tube, at least one contact surface, lies against the at least one electrical insulation element under the action of a pressure force, wherein the at least one contact surface abuts at least one of the two wide side walls, wherein the pressure force at the at least one contact surface is variable across the at least one contact surface, wherein, the pressure force at the at least one contact surface is greater by at least 10% in the center than at the edge, wherein the wide side wall thickness at the at least one contact surface varies perpendicular to a longitudinal axis of the tube and parallel to an imaginary plane spanned by the at least one contact surface, wherein a varying wide side wall thickness is provided such that the wide side wall thickness at the at least one contact surface is greater than the wide side wall thickness outside the at least one contact surface and, and, owing to said varying wide side wall thickness, a shoulder is formed on the inside of the tube between the at least one contact surface and outside the at least one contact surface, wherein the wide side wall thickness at the at least one contact surface is between 0.7 mm and 3 mm, wherein the tube is provided with a predetermined bending point in particular on the two narrow side walls, wherein the narrow side wall thickness at the predetermined bending point is less than the narrow side wall thickness outside the predetermined bending point, wherein the two narrow side walls are externally convexly curved or the two narrow side walls are arched outward, wherein the ratio between the central wide side wall thickness at the at least one contact surface and the wide side wall thickness outside the at least one contact surface is greater than or equal to 1.0 and less than 1.5. 2. A PTC heat exchanger comprising at least one PTC electrical resistance heating element, at least two conductors comprising conductor plates, connected in electrically conductive fashion to the at least one PTC electrical resistance heating element in order to conduct electrical current through the at least one PTC electrical resistance heating element and thereby heat the PTC electrical resistance heating element, at least one heat-conducting element for transmitting heat from the at least one PTC electrical resistance heating element to a fluid to be heated, at least one electrical insulation element which electrically insulates the at least two conductors, at least one tube having a tube width, two wide side walls each having a wide side wall thickness, and two narrow side walls each having a narrow side wall thickness, wherein the at least two conductors and the at least one PTC electrical resistance heating element are arranged within a cavity delimited by the tube, wherein the tube, at least one contact surface, lies against the at least one electrical insulation element under the action of a pressure force, wherein the at least one contact surface abuts at least one of the two wide side walls, wherein the pressure force at the at least one contact surface is variable across the at least one contact surface, wherein, the pressure force at the at least one contact surface is greater by at least 10% in the center than at the edge, wherein the wide side wall thickness at the at least one contact surface varies perpendicular to a longitudinal axis of the tube and parallel to an imaginary plane spanned by the at least one contact surface, wherein a varying wide side wall thickness is provided such that the wide side wall thickness at the at least one contact surface is greater than the wide side wall thickness outside the at least one contact surface and, owing to said varying wide side wall thickness, a shoulder is formed on the inside of the tube between the at least one contact surface and outside the at least one contact surface, wherein the wide side wall thickness at the at least one contact surface is between 0.7 mm and 3 mm, wherein the tube is provided with a predetermined bending point in particular on the two narrow side walls, wherein the narrow side wall thickness at the predetermined bending point is less than the narrow side wall thickness outside the predetermined bending point, wherein the two narrow side walls are externally convexly curved or the two narrow side walls are arched outward, wherein the ratio between the central wide side wall thickness at the at least one contact surface and the wide side wall thickness outside the at least one contact surface is between 1.1 and 2.0. 3. The PTC heat exchanger as claimed in claim 2 , wherein the ratio between the central wide side wall thickness at the at least one contact surface and the wide side wall thickness outside the at least one contact surface is between 1.1 and 1.5. 4. The PTC heat exchanger as claimed in claim 2 , wherein the ratio between the central wide side wall thickness at the at least one contact surface and the wide side wall thickness outside the at least one contact surface is between 1.2 and 1.7. 5. A method for producing a PTC heat exchanger according to claim 1 , the method comprising: providing at least one PTC electrical resistance heating element, providing at least two electrical conductors comprising conductor plates, for conducting electrical current through the at least one PTC electrical resistance heating element, providing at least one heat-conducting element for transmitting heat from the at least one PTC electrical resistance heating element to a fluid to be heated, providing at least one electrical insulation element for electrically insulating the at least one heat-conducting element from the at least two conductors, connecting the at least two conductors to the at least one PTC electrical resistance heating element, thermally connecting the at least one heat-conducting element to the at least one conductor or to the at least one PTC electrical resistance heating element, electrically insulating the at least two conductors by using the at least one electrical insulation element, by virtue of the at least two conductors with the at least one PTC electrical resistance heating element and the at least one electrical insulation element being connected to form at least one heating assembly, wherein the at least one heat-conducting element comprises at least one tube having a tube width, two wide side walls each having a wide side wall thickness, and two narrow side walls each having a narrow side wall thickness, wherein the at least one tube encloses at least one cavity, wherein the at least one heating assembly is fastened within the at least one cavity in the at least one tube with a force fit by deforming the at least one tube and pressing the at least one tube against the heating assembly, such that the at least on