Light distribution element, light source module and lighting device

What is claimed is: 1. A light distribution element, comprising: a light incident surface, which is in a shape of a smooth inward concave curved surface and forms an accommodation cavity for accommodating a light emitting unit; and a light emitting surface, which is in a shape of a smooth outward convex curved surface and is opposite to the light incident surface, wherein a thickness difference exists and is between the light incident surface and the light emitting surface, light rays emitted from a light emitting unit are processed by the light incident surface and the light emitting surface, and then shift towards a portion of the light distribution element with a larger thickness difference, such that the light rays are diffused and obtains a light spot, and wherein a third center point of the light emitting unit is aligned with a first center point of the light emitting surface in a vertical direction. 2. The light distribution element according to claim 1 , wherein an offset distance between a center of the light emitting unit and a center point of the light emitting surface is 20% of a width of the light emitting unit. 3. The light distribution element according to claim 1 , wherein an offset distance between a center of the light emitting unit and a center point of the light emitting surface is not greater than 0.55 mm. 4. The light distribution element according to claim 1 , wherein the first center point of the light emitting surface is staggered with a second center point of the light incident surface in a vertical direction. 5. A light distribution element, comprising: a light incident surface, which is in a shape of a smooth inward concave curved surface and forms an accommodation cavity for accommodating a light emitting unit, comprises a center point; and a light emitting surface, which is in a shape of a smooth outward convex curved surface and is opposite to the light incident surface, comprises a center point, wherein a first center point of the light emitting surface is staggered with a second center point of the light incident surface in a vertical direction, and the first center point of the light emitting surface is aligned with a third center point of the light emitting unit located in the accommodation cavity in the vertical direction. 6. The light distribution element according to claim 5 , wherein the second center point of the light incident surface is a highest point of the light incident surface, and the first center point of the light emitting surface is a highest point of the light emitting surface. 7. The light distribution element according to claim 5 , wherein each of the light incident surface and the light emitting surface has a cross cutting line and a rip cutting line for dividing them into four quadrants, and both the light incident surface and the light emitting surface are symmetric in the four quadrants. 8. The light distribution element according to claim 7 , wherein along the cross cutting line of the light emitting surface, a thickness between the light incident surface and the light emitting surface exists and the thickness is minimum between the first center point of the light emitting surface and the second light incident surface, and from the first and second center point to two sides of the light emitting surface, the thickness between the light emitting surface and the light incident surface increases symmetrically. 9. The light distribution element according to claim 7 , wherein along the rip cutting line of the light incident surface, a thickness between the light incident surface and the light emitting surface exists and is in an increasing tendency. 10. The light distribution element according to claim 7 , wherein a projection of the cross cutting line of the light incident surface on a horizontal plane is shorter than a projection of the rip cutting line of the light incident surface on the horizontal plane. 11. The light distribution element according to claim 7 , wherein a projection of the cross cutting line of the light emitting surface on a horizontal plane is longer than a projection of the rip cutting line of the light emitting surface on the horizontal plane. 12. The light distribution element according to claim 7 , wherein a projection of the cross cutting line of the light incident surface on a horizontal plane is parallel to a projection of the cross cutting line of the light emitting surface on the horizontal plane. 13. The light distribution element according to claim 7 , wherein a distance exists between a projection of the rip cutting line of the light incident surface on a horizontal plane and a projection of the rip cutting line of the light emitting surface on the horizontal plane and is less than a preset line distance threshold value. 14. The light distribution element according to claim 13 , wherein the projection of the rip cutting line of the light incident surface on the horizontal plane coincides with the projection of the rip cutting line of the light emitting surface on the horizontal plane. 15. The light distribution element according to claim 7 , wherein a ratio exists between a projection of the cross cutting line and a projection of the rip cutting line on a horizontal plane in the light incident surface and is greater than a ratio between a projection of the cross cutting line and a projection of the rip cutting line on the horizontal plane of the light emitting surface. 16. The light distribution element according to claim 5 , wherein, in projections on a horizontal plane, a point distance exists between a portion of an edge of the light incident surface and a portion of an edge of the light emitting surface and is less than a preset point distance threshold value. 17. The light distribution element according to claim 16 , wherein, in the projections of the light incident surface and the light emitting surface on the horizontal plane, at least a part of the edge of the light incident surface coincides with a part of the edge of the light emitting surface. 18. A light source module, comprising: a substrate, a light emitting unit provided on the substrate, and a light distribution element, and wherein the light distribution element comprises: a light incident surface, which is in a shape of a smooth inward concave curved surface and forms an accommodation cavity for accommodating a light emitting unit; and a light emitting surface, which is in a shape of a smooth outward convex curved surface and is opposite to the light incident surface, wherein a thickness difference exists and is between the light incident surface and the light emitting surface, light rays emitted from a light emitting unit are processed by the light incident surface and the light emitting surface, and then shift towards a portion of the light distribution element with a larger thickness difference, such that the light rays are diffused and obtains a light spot, and wherein the light distribution element is mounted to the substrate and covers the light emitting unit, and the light emitting unit is located in the accommodation cavity of the light distribution element and a third center point of the light emitting unit is aligned with a first center point of the light emitting surface in a vertical direction. 19. The light source module according to claim 18 , wherein the light source module comprises a plurality of light distribution elements and a plurality of light emitting units, the plurality of light emitting units are arranged on the substrate in an array, and at least one l