Radiator assembly for base station antenna and base station antenna

That which is claimed is: 1. A radiator assembly for a base station antenna, the radiator assembly comprising: two dipoles arranged in a cross-over manner, each dipole including two dipole arms; two feeding lines, each feeding line being associated with a respective one of the dipoles, an arm holder configured to support the dipole arms; and at least one feeding line holder configured to support at least one of the two feeding lines, wherein each dipole arm is integrally formed of a sheet metal and includes a radiating surface and a leg projecting from the radiating surface at an angle with the radiating surface, wherein the leg is electrically grounded, and wherein the arm holder includes a foot, a central recess and four arm supports surrounding the central recess, wherein the foot is configured to secure the arm holder to a substrate or reflector of the base station antenna, the central recess is configured to receive the at least one feeding line holder and the leg of each dipole arm, and the arm supports are configured to support the dipole arms. 2. The radiator assembly for a base station antenna of claim 1 , wherein the radiating surfaces of the dipole arms are mounted on respective ones of the arm supports. 3. The radiator assembly for a base station antenna of claim 2 , wherein each arm support is provided with a respective cover, and wherein the radiating surfaces of the dipole arms are captured between the arm supports and the associated covers. 4. The radiator assembly for a base station antenna of claim 1 , wherein the arm holder includes a support structure for supporting the radiating surfaces of the dipole arms, and wherein the support structure includes an outer ring, an inner ring, and ribs that connect the outer ring to the inner ring. 5. The radiator assembly for a base station antenna of claim 1 , wherein each arm support has a respective opening. 6. The radiator assembly for a base station antenna of claim 1 , wherein the two feeding lines are integrally formed of sheet metal, and the two feeding lines respectively include two legs and a limb connecting the two legs. 7. The radiator assembly for a base station antenna of claim 6 , wherein the at least one feeding line holder includes a first feeding line holder, which holds the limbs of the two feeding lines, and spaces the limbs of the two feeding lines apart from each other. 8. The radiator assembly for a base station antenna of claim 7 , wherein the first feeding line holder includes: a body having a first side surface and a second side surface opposite to the first side surface; a first snap-fit element constructed on the first side surface and configured to form a snap-fit connection with the limb of one of the feeding lines; and a second snap-fit element configured on the second side surface and configured to form a snap-fit connection with the limb of the other of the feeding lines. 9. The radiator assembly for a base station antenna of claim 8 , wherein the first feeding line holder further includes two through holes, which are configured to receive the two legs of the one of the feeding lines. 10. The radiator assembly for a base station antenna of claim 8 , wherein the first feeding line holder further includes at least one third snap-fit element projecting from its body, and wherein the third snap-fit element is configured to form a snap-fit connection with the leg of the respective dipole arm. 11. The radiator assembly for a base station antenna of claim 6 , wherein the at least one feeding line holder includes a second feeding line holder, which is configured to guide the legs of the two feeding lines. 12. The radiator assembly for a base station antenna of claim 11 , wherein the second feeding line holder includes a body and four through holes formed in the body, and wherein each through hole is configured to receive a respective one of the legs of one of the feeding lines. 13. The radiator assembly for a base station antenna of claim 11 , wherein the second feeding line holder further includes at least one snap-fit element projecting from its body, and wherein the snap-fit element of the second feeding line holder is configured to form a snap-fit connection with the leg of the respective dipole arm. 14. The radiator assembly for a base station antenna of claim 1 , wherein the radiating surfaces of the dipole arms respectively have a central opening. 15. The radiator assembly for a base station antenna of claim 1 , wherein the dipole arms respectively have at least one tab that extends at an angle with respect to the radiating surface. 16. The radiator assembly for a base station antenna of claim 15 , wherein the tab extends at an angle of 80° to 100° with respect to the radiating surface. 17. The radiator assembly for a base station antenna of claim 1 , wherein the legs of the dipole arms extend at an angle of 80° to 100° with respect to the radiating surfaces of the respective dipole arms. 18. A base station antenna, which comprises a radiator array, wherein the radiator array includes a plurality of radiator assemblies for a base station antenna according to claim 1 , wherein the radiator array is a low frequency band radiator array, and the base station antenna further includes a high frequency band radiator array. 19. A radiator assembly for a base station antenna, the radiator assembly comprising: two dipoles arranged in a cross-over manner, each dipole including two dipole arms; two feeding lines, each feeding line being associated with a respective one of the dipoles; and an arm holder having four arm supports configured to support the dipole arms; wherein each dipole arm includes a radiating surface and a leg projecting from the radiating surface, wherein the leg is electrically grounded, and wherein each dipole arm is fastened onto a respective one of the arm supports of the arm holder by screws or using adhesives. 20. A radiator assembly for a base station antenna, the radiator assembly comprising: two dipoles arranged in a cross-over manner, each dipole including two dipole arms; two feeding lines, each feeding line being associated with a respective one of the dipoles; and at least one feeding line holder configured to support at least one of the two feeding lines, each feeding line respectively includes two legs and a limb connecting the two legs, wherein each dipole arm includes a radiating surface and a leg projecting from the radiating surface, and wherein the leg is electrically grounded, and wherein the at least one feeding line holder comprises: a body having a first side surface and a second side surface opposite to the first side surface; a first snap-fit element constructed on the first side surface and configured to form a snap-fit connection with the limb of one of the feeding lines; and a second snap-fit element configured on the second side surface and configured to form a snap-fit connection with the limb of the other of the feeding lines.