Optical module and lamp for vehicle including the same

What is claimed is: 1 . A plurality of optical modules, each optical module comprising: a light source configured to output light; and a micro lens array (MLA) module on a front side of the light source positioned to receive the light, wherein the MLA module includes: an input lens array through which the light is input, the input lens array including a plurality of input lenses; and an output lens array provided on a front side of the input lens array and configured to output the light received through the input lens array, the output lens array including a plurality of output lenses, wherein optical axes of all of the plurality of output lenses in the output lens array extend in a forward/rearward direction and cross respective centers of the plurality of input lenses; the input lenses have shapes that are convex in a rearward direction, the output lenses have shapes that are convex in a forward direction; and the input lenses have upper portions and lower portions, and radii of vertical curvatures of lower portions of the input lenses are larger than radii of vertical curvatures of the output lenses, and radii of vertical curvatures of upper portions of the input lenses are the same as radii of vertical curvatures of the output lenses, and a collimator configured to convert the light output from the light source to parallel light, the collimator being disposed between the light source and the MLA module with respect to the forward/rearward direction, and wherein the direction in which the collimators are arranged is different for each of the optical modules of the plurality of optical modules. 2 . The optical modules of claim 1 , wherein: among light output from the light source, light input to the upper portions of the input lenses is defined as first light and light input to the lower portions of the input lenses is defined as second light, and the second light is output from the output lens array to be inclined upwards with respect to the first light. 3 . The optical modules of claim 1 , wherein an optical axis of the collimator and an optical axis of the light source coincide with each other. 4 . A plurality of optical modules, each optical module comprising: a light source configured to output light; and a micro lens array (MLA) module on a front side of the light source positioned to receive the light, wherein the MLA module includes: an input lens array through which the light is input, the input lens array including a plurality of input lenses; an output lens array provided on a front side of the input lens array and configured to output the light received through the input lens array, the output lens array including a plurality of output lenses; and a collimator configured to convert the light output from the light source to parallel light, the collimator being disposed between the light source and the MLA module with respect to a forward/rearward direction; wherein optical axes of all of the plurality of output lenses in the output lens array extend in a forward/rearward direction and cross respective centers of the plurality of input lenses, wherein the light source comprises a plurality of individual light sources, and the plurality of light sources includes: a central light source with an axis crossing an optical axis of the collimator and from which a central light is output; a first peripheral light source that is disposed on one side of the central light source in a leftward/rightward direction and from which a first peripheral light is output; and a second peripheral light source that is disposed on an opposite side of the central light source in the leftward/rightward direction and from which a second peripheral light is output; and wherein the output lens array is configured to: output the first peripheral light such that the first peripheral light is inclined to one side in the leftward/rightward direction with respect to the central light; and output the second peripheral light such that the second peripheral light is inclined to an opposite side in the leftward/rightward direction with respect to the central light, and radii of vertical curvatures of lower portions of the input lenses are larger than radii of vertical curvatures of the output lenses, and radii of vertical curvatures of upper portions of the input lenses are the same as radii of vertical curvatures of the output lenses and wherein the direction in which the collimators are arranged is different for each of the multiple optical modules of the plurality of optical modules. 5 . The optical module of claim 4 , wherein the MLA comprising the input lens array and output lens array is one unitary molding. 6 . A lamp for a vehicle, comprising a plurality of optical modules, wherein each of the optical modules includes: a light source configured to output light; and a micro lens array (MLA) module provided on a front side of the light source to receive the light, wherein, within each optical module, the MLA module includes: an input lens array through which the light is input, the input lens array including a plurality of input lenses; and an output lens array that is provided on a front side of the input lens array and configured to output the light received through the input lens array, the output lens array including a plurality of output lenses, wherein optical axes of all of the plurality of output lenses of the output lens array extend in a forward/rearward direction and cross through respective centers of the plurality of input lenses, and the lamp further comprises: a first optical module of the plurality of optical modules in which optical axes of the plurality of output lenses coincide with an optical axis of the light source of the first optical module, and a second optical module of the plurality of optical modules in which optical axes of the plurality of output lenses are not parallel to the optical axis of the light source of the second optical module, and radii of vertical curvatures of lower portions of the input lenses are larger than radii of vertical curvatures of the output lenses, and radii of vertical curvatures of upper portions of the input lenses are the same as radii of vertical curvatures of the output lenses and a collimator configured to convert the light output from the light source to parallel light, the collimator being disposed between the light source and the MLA module with respect to the forward/rearward direction, and the direction in which the respective collimators are arranged is different for each of the optical modules. 7 . The optical module of claim 6 , wherein the input lenses and output lenses are aspheric lenses.