Optical module

1 . An optical module, comprising a circuit board, a first chip, a second chip, and a lens assembly, the first chip and the second chip are arranged respectively on the surface of the circuit board, and the lens assembly is arranged above the first chip and the second chip; the lens assembly comprises a first optic fiber insertion port, a second optic fiber insertion port, a first reflecting surface, and a second reflecting surface; and the first reflecting surface faces the first chip, the first reflecting surface faces the second reflecting surface, and the second reflecting surface faces the first optic fiber insertion port. 2 . The optical module according to claim 1 , wherein: the first chip is a light transmitting chip, the first reflecting surface is configured to reflect light rays exiting the light transmitting chip to the second reflecting surface, and the second reflecting surface is configured to reflect the light rays reflected by the first reflecting surface to the first optic fiber insertion port. 3 . The optical module according to claim 1 , wherein: the first chip is a light probing chip, the second reflecting surface is configured to reflect light rays incident on the first optic fiber insertion port to the first reflecting surface, and the first reflecting surface is configured to reflect the light rays reflected by the second reflecting surface to the light probing chip. 4 . The optical module according to claim 1 , wherein: the distance between the axis of the first optic fiber insertion port, and the axis of the second optic fiber insertion port is less than the distance between the first chip and the second chip. 5 . The optical module according to claim 1 , wherein the lens assembly further comprises a first lens and a second lens; the first lens is arranged between the first chip and the first reflecting surface; and the second lens is arranged at the first optic fiber insertion port. 6 . The optical module according to claim 1 , wherein a light propagation path between the first chip and the first reflecting surface is parallel or perpendicular to the axis of the first optic fiber insertion port. 7 . The optical module according to claim 6 , wherein there is a concave groove on the upper surface of the lens assembly, there is a bump in the concave groove, and the first reflecting surface and the second reflecting surface are formed on the surface of the bump. 8 . The optical module according to claim 7 , further comprising a first driving chip configured to drive the first chip, and a straight line connecting a pin of the first chip with a pin of the first driving chip is perpendicular to a side of the first driving chip. 9 . An optical module, comprising a circuit board, a first chip, a second chip, a first lens assembly, and a second lens assembly, the first chip is arranged on the surface of the circuit board, and the first lens assembly is arranged above the first chip; the second chip is arranged on the surface of the circuit board, and the second lens assembly is arranged above the second chip; the first lens assembly comprises a first optic fiber insertion port, a first reflecting surface, and a second reflecting surface; the second lens assembly comprises a second optic fiber insertion port; and the first reflecting surface faces the first chip, the first reflecting surface faces the second reflecting surface, and the second reflecting surface faces the first optic fiber insertion port. 10 . The optical module according to claim 9 , wherein: the distance between the axis of the first optic fiber insertion port, and the axis of the second optic fiber insertion port is less than the distance between the first chip and the second chip. 11 . The optical module according to claim 9 , wherein the first lens assembly further comprises a first lens and a second lens; the first lens is arranged between the first chip and the first reflecting surface; and the second lens is arranged at the first optic fiber insertion port. 12 . The optical module according to claim 9 , wherein a light propagation path between the first chip and the first reflecting surface is parallel or perpendicular to the axis of the first optic fiber insertion port. 13 . The optical module according to claim 9 , wherein there is a concave groove on the upper surface of the first lens assembly, there is a bump in the concave groove, and the first reflecting surface and the second reflecting surface are formed on the surface of the bump. 14 . The optical module according to claim 13 , further comprising a first driving chip driving the first chip, and a second driving chip driving the second chip; and a straight line connecting a pin of the first chip with a pin of the first driving chip is perpendicular to a side of the first driving chip, and a straight line connecting a pin of the second chip with a pin of the second driving chip is perpendicular to a side of the second driving chip. 15 . The optical module according to claim 9 , wherein the second lens assembly further comprises a third reflecting surface and a fourth reflecting surface; and the third reflecting surface faces the second chip, the third reflecting surface faces the fourth reflecting surface, and the fourth reflecting surface faces the second optic fiber insertion port. 16 . The optical module according to claim 15 , wherein: the first chip is a light transmitting chip, the first reflecting surface is configured to reflect light rays exiting the light transmitting chip to the second reflecting surface, and the second reflecting surface is configured to reflect the light rays reflected by the first reflecting surface to the first optic fiber insertion port; and the second chip is a light probing chip, the fourth reflecting surface is configured to reflect light rays incident on the second optic fiber insertion port to the third reflecting surface, and the third reflecting surface is configured to reflect the light rays reflected by the fourth reflecting surface to the light probing chip. 17 . The optical module according to claim 15 , wherein the second lens assembly further comprises a third lens and a fourth lens; the third lens is arranged between the second chip and the third reflecting surface; and the fourth lens is arranged at the second optic fiber insertion port. 18 . The optical module according to claim 9 , wherein the second lens assembly further comprises a fifth reflecting surface facing the second chip and the second optic fiber insertion port. 19 . The optical module according to claim 18 , wherein: the first chip is a light transmitting chip, the first reflecting surface is configured to reflect light rays exiting the light transmitting chip to the second reflecting surface, and the second reflecting surface is configured to reflect the light rays reflected by the first reflecting surface to the first optic fiber insertion port; and the second chip is a light probing chip, and the fifth reflecting surface is configured to reflect light rays incident at the second optic fiber insertion port to the light probing chip. 20 . The optical module according to claim 18 , wherein: the first chip is a light probing chip, the second reflecting surface is configured to reflect light rays incident on the first optic fiber insertion port to the first reflecting surface, and the first reflecting surface is configured to reflect the light rays reflected by the second reflecting surface to the light pro