Apparatus for manufacturing lidar receiver and method for manufacturing lidar receiver

1 . An apparatus for manufacturing a light detection and ranging (LiDAR) receiver in which a receiver board is coupled integrally to a barrel having one side provided with a lens after the receiver board having one side on which a light detection element is mounted is aligned with the other side of the barrel, the apparatus comprising: a base plate having a plate shape of which a length extends rearward; a light source unit disposed at a rear side of an upper surface of the base plate; and a receiver alignment unit disposed to face the light source unit at a front side of the base plate, wherein: the light source unit includes a light-emitting module including a light-emitting element configured to radiate light forward and a light-emitting module fixing member configured to fix the light-emitting module to the base plate; and a receiver alignment unit includes an alignment plate having a plate shape, a barrel fixing member configured to fix the barrel to a front side of the alignment plate, the receiver board fixing member configured to fix the receiver board to the alignment plate such that the receiver board is disposed at a rear side of the barrel; and a receiver board alignment member configured to couple the receiver board to the rear side of the barrel in a state in which the light reaches the light detection element to be perpendicular thereto. 2 . The apparatus of claim 1 , wherein the detection element is provided as a plurality of detection elements, and the plurality of detection elements are disposed in a line on one surface of the receiver board. 3 . The apparatus of claim 1 , wherein the barrel fixing member fixes the barrel such that a length direction of the barrel is parallel to a length direction of the base plate. 4 . The apparatus of claim 1 , wherein: the light source unit further includes a light-emitting module alignment member disposed between the light-emitting module fixing member and the base plate to control a movement path of the light of the light-emitting module; and the light-emitting module alignment member controls the movement path of the light to be shiftable along a first axis extending in a lateral direction. 5 . The apparatus of claim 4 , wherein the receiver board alignment member further includes a receiver board alignment member configured to connect the receiver board fixing member to the alignment plate and control the receiver board to be rotatable about a second axis extending in a vertical direction as a rotation axis. 6 . The apparatus of claim 1 , further comprising a light-emitting module alignment member disposed between the light-emitting module fixing member and the base plate to control a movement path of the light of the light-emitting module, wherein the light-emitting module alignment member controls the movement path of the light to be rotatable about a first axis extending in a lateral direction to be parallel to the base plate. 7 . The apparatus of claim 1 , wherein: the light source unit further includes a light-emitting module alignment member disposed between the light-emitting module fixing member and the base plate to control a movement path of the light of the light-emitting module; and the light-emitting module alignment member controls the movement path of the light to be shiftable along a third axis extending in a vertical direction. 8 . The apparatus of claim 7 , further comprising a receiver board alignment member configured to connect the receiver board fixing member to the alignment plate and control the receiver board to be rotatable about a fourth axis extending in a lateral direction as a rotation axis. 9 . The apparatus of claim 7 , further comprising a receiver board alignment member configured to connect the receiver board fixing member to the alignment plate and control the receiver board to be rotatable about a fifth axis extending in a front-rear direction as a rotation axis. 10 . The apparatus of claim 7 , further comprising a receiver board alignment member configured to connect the receiver board fixing member to the alignment plate and control the receiver board to be movable along a fifth axis extending in a front-rear direction as a rotation axis. 11 . The apparatus of claim 1 , wherein the receiver alignment unit further includes an alignment plate alignment member configured to connect the alignment plate to the base plate and control the alignment plate to be rotatable about a sixth axis extending in a lateral direction as a rotation axis. 12 . The apparatus of claim 1 , wherein the receiver alignment unit further includes an alignment plate alignment member configured to connect the alignment plate to the base plate and control the alignment plate to be rotatable about a seventh axis extending in a vertical direction as a rotation axis. 13 . The apparatus of claim 11 , wherein the alignment plate alignment member rotates about a center point of an optical stop area of the lens of the barrel. 14 . A method of manufacturing a light detection and ranging (LiDAR) receiver, the method comprising: a barrel fixing operation of fixing a barrel to a barrel fixing member disposed at one side of a base plate such that a lens faces rearward; a receiver board fixing operation of fixing a receiver board having one surface on which a plurality of light detection elements are disposed to a receiver board fixing member such that the plurality of light detection elements vertically disposed in a line on the receiver board fixing member disposed at a rear side of the barrel face the barrel; a light source aligning operation of aligning a light source such that light emitted from a light-emitting module including a light-emitting element travels toward the lens; a receiver aligning operation of aligning a movement path of the light such that the light reaches the light detection element to be perpendicular thereto; and a receiver coupling operation of coupling the receiver board to the rear side of the barrel. 15 . The method of claim 14 , wherein, in the barrel fixing operation, the barrel is fixed to the barrel fixing member such that a length direction of the barrel is parallel to a length direction of the base plate. 16 . The method of claim 14 , wherein the light source aligning operation includes: a light-emitting module vertical aligning operation of, through a light-emitting module alignment member disposed between the base plate and a light-emitting module fixing member to which the light-emitting module is fixed, controlling the movement path of the light of the light-emitting module to be shiftable along an axis extending in a lateral direction to be parallel to the base plate or to be rotatable about the axis extending in the lateral direction; and a light-emitting module horizontal aligning operation of controlling the movement path of the light of the light-emitting module to be shifted along an axis extending in a vertical direction. 17 . The method of claim 14 , wherein the receiver aligning operation includes: a barrel aligning operation of, through an alignment plate alignment member disposed between the base plate and an alignment plate to which the barrel fixing member is coupled, controlling the alignment plate to be rotatable about an axis extending in a lateral direction and an axis extending in a vertical direction as rotation axes such that an extending direction in which the barrel extends forward is parallel to a path of light radiated from the light-emitting element; and a receiver board aligning operation of, through a receiver board alignment