Horizontally arranged six-degree-of-freedom constant-stiffness mechanism

What is claimed is: 1. A horizontally arranged six-degree-of-freedom constant-stiffness mechanism, comprising an upper platform, a bottom plate, three composite spherical hinges, spherical hinges, support rods, guide rail slider assemblies, and six electromagnetic adjustable stiffness units with a same structure, wherein in each of the electromagnetic adjustable stiffness units, two ends of a shaft on which a permanent magnet is fixed are fixed to the bottom plate via shaft supports, housings of the electromagnetic adjustable stiffness units move axially and are fixed on sliders of the guide rail slider assemblies via slider backing plates respectively, the guide rail slider assembles are fixed on the bottom plate, top portions of the housings are mounted with the spherical hinges respectively, a bottom portion of the upper platform is uniformly mounted with the three composite spherical hinges, one end of each support rod is threadedly connected with a corresponding one of the spherical hinges, and another end of the support rod is threadedly connected with a corresponding one of the three composite spherical hinges. 2. The horizontally arranged six-degree-of-freedom constant-stiffness mechanism according to claim 1 , wherein the six electromagnetic adjustable stiffness units are respectively a first electromagnetic adjustable stiffness unit, a second electromagnetic adjustable stiffness unit, a third electromagnetic adjustable stiffness unit, a fourth electromagnetic adjustable stiffness unit, a fifth electromagnetic adjustable stiffness unit and a sixth electromagnetic adjustable stiffness unit, the first electromagnetic adjustable stiffness unit and the second electromagnetic adjustable stiffness unit are arranged in parallel and two ends of the first electromagnetic adjustable stiffness unit are aligned with two ends of the second electromagnetic adjustable stiffness unit respectively, the third electromagnetic adjustable stiffness unit and the fourth electromagnetic adjustable stiffness unit are arranged in parallel and two ends of the third electromagnetic adjustable stiffness unit are aligned with two ends of the fourth electromagnetic adjustable stiffness unit respectively, the fifth electromagnetic adjustable stiffness unit and the sixth electromagnetic adjustable stiffness unit are arranged in parallel and two ends of the fifth electromagnetic adjustable stiffness unit are aligned with two ends of the sixth electromagnetic adjustable stiffness respectively; a perpendicular line of the first electromagnetic adjustable stiffness unit, a vertical bisector of the third electromagnetic adjustable stiffness unit and a perpendicular line of the fifth electromagnetic adjustable stiffness unit intersect at a center of the bottom plate, and an angle between two adjacent perpendicular lines is 120°. 3. The horizontally arranged six-degree-of-freedom constant-stiffness mechanism according to claim 2 , wherein the support rods comprise six support rods, the six support rods are respectively a first support rod, a second support rod, a third support rod, a fourth support rod, a fifth support rod, and a sixth support rod; the three composite spherical hinges are respectively a first composite spherical hinge, a second composite spherical hinge, and a third composite spherical hinge; one end of the first support rod is connected to one of the spherical hinges which is arranged on the first electromagnetic adjustable stiffness unit, another end of the first support rod is connected to the third composite spherical hinge; one end of the second support rod is connected to one of the spherical hinges which is arranged on the second electromagnetic adjustable stiffness unit, another end of the second support rod is connected to the first composite spherical hinge; one end of the third support rod is connected to one of the spherical hinges which is arranged on the third electromagnetic adjustable stiffness unit, another end of the third support rod is connected to the second composite spherical hinge; one end of the fourth support rod is connected to one of the spherical hinges which is arranged on the fourth electromagnetic adjustable stiffness unit, another end of the fourth support rod is connected to the third composite spherical hinge; one end of the fifth support rod is connected to one of the spherical hinges which is arranged on the fifth electromagnetic adjustable stiffness unit, another end of the fifth support rod is connected to the first composite spherical hinge; one end of the sixth support rod is connected to one of the spherical hinges which is arranged on the sixth electromagnetic adjustable stiffness unit, another end of the sixth support rod is connected to the second composite spherical hinge. 4. The horizontally arranged six-degree-of-freedom constant-stiffness mechanism according to claim 1 , wherein each electromagnetic adjustable stiffness unit comprises a first shaft support in the shaft supports, a first coil spring, a left cover, a right cover, a second coil spring, a second shaft support in the shaft supports and an arbor; two ends of the arbor are respectively assembled on the first shaft support and the second shaft support; the first coil spring, the left cover, a corresponding housing of the housings, the right cover and the second coil spring are sequentially assembled on the arbor from left to right; and a left end of the first coil spring is abutted against the first shaft support, and a right end of the second coil spring is abutted against the second shaft support. 5. The horizontally arranged six-degree-of-freedom constant-stiffness mechanism according to claim 4 , wherein the electromagnetic adjustable stiffness units further comprises electromagnetic coils and the permanent magnet; the electromagnetic coils comprise six electromagnetic coils, the six electromagnetic coils are fixed in an inner cavity of the corresponding housing via the left cover and steps in an inner wall of the corresponding housing, the six electromagnetic coils do not slide with respect to the corresponding housing, adjacent two of the electromagnetic coils are in close contact with each other, current in the adjacent two electromagnetic coils is equal and opposite in direction; the permanent magnet is mounted on the arbor in the corresponding housing; and an inner diameter of each of the electromagnetic coils is greater than an outer diameter of the permanent magnet. 6. The horizontally arranged six degree-of-freedom constant-stiffness mechanism according to claim 5 , wherein the electromagnetic adjustable stiffness unit further comprises a first sliding bearing, a first permanent magnet fixing ring, a second permanent magnet fixing ring and a second sliding bearing, left and right ends of the corresponding one of the housings are machined with threaded holes, the left cover and the right cover are fixed to the corresponding one of the housings by bolts, the left cover is machined with threaded holes, the first sliding bearing is fixed to the left cover via bolts, the right cover is also machined with threaded holes, and the second sliding bearing is fixed to the right cover via bolts and nuts; the first permanent magnet fixing ring and the second permanent magnet fixing ring respectively limit two sides of the permanent magnet. 7. The horizontally arranged six-degree-of-freedom constant-stiffness mechanism according to claim 1 , wherein each of the three composite spherical hinge comprises a base, a ball and socket cover and two spherical hinge heads; the base is fixed to the bottom of the upper platform via bolts, and the two spherical hinge heads are threadedly connected to the support rods after passing through the ball and socket cover respectively.