Plastic element for lash-free support

The invention claimed is: 1. A device ( 1 ), comprising: a worm wheel ( 2 ) having teeth ( 10 ), which is rotatably arranged around a steering axis ( 12 ) and can be connected to a steering shaft that can rotate around the steering axis ( 12 ) in a torsionally resistant manner; a worm shaft ( 4 ) supported so as to rotate around a rotational axis ( 14 ), with the worm shaft having an end ( 28 ) on an engine side and an end ( 30 ) away from an engine, as well as worm toothing ( 8 ), which engages between the teeth ( 10 ) of the worm wheel ( 2 ) such that when the worm shaft ( 4 ) rotates around the rotational axis ( 14 ), the worm wheel ( 2 ) rotates around the steering axis ( 12 ); a gearbox housing ( 6 , 60 A, 60 B), in which the worm wheel ( 2 ) and the worm shaft ( 4 ) are supported so as to rotate; and a compensating element ( 16 ), wherein the compensating element ( 16 ) has a middle section ( 22 ), as well as a rear end section ( 18 ) and a front end section ( 20 ), wherein the rear end section ( 18 ) is connected to the gearbox housing ( 6 , 6 A), and the front end section ( 20 ) retains the end ( 30 ) away from the engine of the worm shaft ( 4 ) or a holder accommodating the end ( 30 ) away from the engine of the worm shaft ( 4 ), and the compensating element ( 16 ) is made of a material an expansion change of which is similar to an expansion change of the radius of the worm wheel ( 2 ) so that a contact pressure between the worm shaft ( 4 ) and the worm wheel ( 2 ) remains constant. 2. The device ( 1 ) according to claim 1 , wherein the holder is a tubular worm guide ( 50 ), in which the worm shaft ( 4 ) is guided axially and accommodated so as to rotate axially, wherein the end ( 30 ) away from the engine of the worm shaft ( 4 ) is supported so as to rotate in the worm guide ( 50 ) formed in a shape of a tube. 3. The device according to claim 1 , wherein the holder is a floating bearing ( 36 ) arranged around the end ( 30 ) away from the engine of the worm shaft ( 4 ), with the holder retaining the worm shaft ( 4 ) in a rotatable manner. 4. The device ( 1 ) according to claim 1 , wherein the housing ( 60 A, 60 B) is formed as two parts, wherein a first part ( 60 A) rotatably supports the worm wheel ( 2 ) and a second part ( 60 B) rotatably supports the worm shaft ( 4 ) and is the holder. 5. The device ( 1 ) according to claim 4 , wherein one the first part ( 60 A) is connected to the second part ( 60 B) so as to pivot via a hinge ( 66 ), wherein the first part ( 60 A) is made of plastic. 6. The device ( 1 ) according to claim 4 , wherein the second part ( 60 B) is made of aluminum. 7. The device ( 1 ) according to claim 4 , wherein one the first part ( 60 A) of the gearbox housing ( 6 ) is connected to the rear end section ( 18 ) of the compensating element ( 16 ) and the second part ( 60 B) of the gearbox housing ( 6 ) is connected to the front end section ( 20 ) of the compensating element ( 16 ) such that the worm toothing ( 8 ) engages between the teeth ( 10 ) of the worm wheel ( 2 ). 8. The device ( 1 ) according to claim 1 , wherein the compensating element ( 16 ) is formed as integral with the gearbox housing ( 6 , 60 A) or a part thereof. 9. The device ( 1 ) according to claim 1 , wherein the inner diameter of the worm wheel ( 2 ) is less than half its of the outer diameter of the worm wheel ( 2 ). 10. The device ( 1 ) according to claim 1 , wherein the worm wheel ( 2 ) is made of glass-fiber-reinforced plastic material, or has a sprocket ( 41 ) made of glass-fiber-reinforced plastic material, or has a wheel element ( 43 ) made of glass-fiber-reinforced plastic material. 11. The device ( 1 ) according to claim 1 , wherein the worm wheel has a steel hub having a diameter, wherein the diameter is greater than three-quarters of a diameter of the worm wheel, wherein a sprocket may be formed without glass-fiber reinforcement. 12. The device ( 1 ) according to claim 1 , wherein the compensating element ( 16 ) is formed from a material selected from the group consisting of a polymer and a plastic. 13. The device ( 1 ) according to claim 1 , wherein the compensating element ( 16 ) is connected to the gearbox housing ( 6 , 60 A, 60 B) via a first connecting means ( 24 ) and a second connecting means ( 26 ), wherein the connecting means ( 24 , 26 ) engage with one another such that the compensating element ( 16 ) is attached to the gearbox housing ( 6 , 60 A, 60 B), so as to pivot, wherein either the gearbox housing ( 6 , 60 A) has the second connecting means ( 26 ) and the rear end section ( 18 ) has the first connecting means ( 24 ), or the rear end section ( 18 ) has the second connecting means ( 26 ) and the gearbox housing ( 6 , 60 A) has the first connecting means ( 24 ), wherein the first connecting means ( 24 ) is a sleeve ( 24 ) and the second connecting means ( 26 ) is a pin. 14. The device ( 1 ) according to claim 13 , wherein the connecting means ( 24 , 26 ) are arranged at a fixed distance and in a fixed direction with respect to the steering axis ( 12 ) when the compensating element ( 16 ) is connected to the gearbox housing ( 6 , 60 A, 60 B). 15. The device ( 1 ) according to claim 1 , wherein the gearbox housing ( 6 , 60 A) has a fixed bearing ( 32 ), formed as a roller bearing, in which the engine-side end ( 28 ) of the worm shaft ( 4 ) is accommodated, wherein the fixed bearing ( 32 ) is formed so as to pivot. 16. The device ( 1 ) according to claim 1 , wherein the gearbox housing ( 6 , 60 A) has at least one fixed bearing ( 64 ), formed as a roller bearing, in which the steering shaft is accommodated so as to rotate. 17. The device ( 1 ) according to claim 1 , having a drive motor ( 58 ), which drives the worm shaft ( 4 ) on the engine-side end ( 28 ) of the worm shaft ( 4 ). 18. An electromechanical power steering system, having a device ( 1 ) according to claim 1 . 19. The device ( 1 ) according to claim 1 , wherein the expansion change of the material from which the compensating element ( 16 ) is made deviates no more than 20% to 40% from the expansion change of the worm wheel ( 2 ). 20. The device ( 1 ) according to claim 12 , wherein the compensating element ( 16 ) is formed from a material selected from the group consisting of polyamide and glass-fiber-reinforced polyamide.