Light emitting device module with heat-sink and air guide

What is claimed is: 1. A light emitting device module comprising: a body having a first side and a second side opposite to the first side; a light source unit located at the first side of the body; a plurality of radiation fins disposed on the second side of the body, the plurality of radiation fins extending from the second side of the body in a first direction; an air hole perforated in the body and extending from the first side of the body to the second side of the body for the flow of air therethrough; and an air guide located at the second side of the body and extending from the second side of the body in the first direction, the air guide being in communication with the air hole to guide the flow of air therethrough, wherein the air guide is configured to protrude from the second side of the body along a rim of the air hole, wherein the air guide is directly connected to at least two of the radiation fins, wherein the air guide is a cylindrical member having an inner space, wherein a rim of the air guide overlaps with the rim of the air hole, wherein an edge of the air guide is spaced from the second side of the body by a first distance, wherein an edge of end portions of the radiation fins is spaced from the second side of the body by a second distance, and an edge of a center portion of the radiation fins is spaced from the second side of the body by a third distance, wherein at least a part of the air guide overlaps with the center portion of the radiation fins, and wherein the first distance is greater than the third distance. 2. The light emitting device module according to claim 1 , wherein the light source unit includes: a board seated on the first side of the body; and a plurality of light emitting devices disposed on the board, wherein the board includes a board hole communicating with the air hole. 3. The light emitting device module according to claim 2 , further comprising a plurality of lenses configured to shield the light emitting devices and to refract light emitted from the light emitting devices. 4. The light emitting device module according to claim 3 , wherein the lenses are disposed on a lens cover, the lens cover having a shape corresponding to that of the board, and wherein the lens cover includes a cover hole communicating with the air hole. 5. The light emitting device module according to claim 1 , wherein each of the radiation fins is elongated in the transverse direction of the body, and wherein a center portion of at least one radiation fin is indented toward the body from both end portions of the radiation fin. 6. The light emitting device module according to claim 5 , wherein the air hole is positioned to overlie the center portion of the at least one radiation fin, and wherein the light emitting devices are positioned to overlie both end portions of the radiation fin. 7. A light emitting device module comprising: a body having a lower side and an upper side opposite to the lower side; a light source unit located at the lower side of the body; a plurality of radiation fins disposed on the upper side of the body, the plurality of radiation fins extending from the upper side of the body in a first direction; a passive airflow promotion channel extending through the body from the lower side of the body to the upper side of the body, the passive airflow promotion channel including an air guide located at the upper side of the body and extending from the upper side of the body in the first direction, the passive airflow promotion channel being configured such that rising air heated by the light source unit at the lower side of the body is induced into the passive airflow promotion channel for passage therethrough to a location at the upper side of the body, wherein the passive airflow promotion channel further includes an air hole perforated in the body and extending from the lower side of the body to the upper side of the body for the flow of air therethrough, the air guide being in communication with the air hole to guide the flow of air therethrough, wherein the air guide is configured to protrude from the upper side of the body along a rim of the air hole, wherein the air guide is directly connected to at least two of the radiation fins, wherein the air guide is a cylindrical member having an inner space, wherein a rim of the air guide overlaps with the rim of the air hole, wherein an edge of the air guide is spaced from the upper side of the body by a first distance, wherein an edge of end portions of the radiation fins is spaced from the upper side of the body by a second distance, and an edge of a center portion of the radiation fins is spaced from the upper side of the body by a third distance, wherein at least a part of the air guide overlaps with the center portion of the radiation fins, and wherein the first distance is greater than the third distance. 8. The light emitting device module according to claim 7 , wherein the air guide includes a sidewall contacting a plurality of the radiation fins, the sidewall having a height extending along a majority of a height of the radiation fins. 9. The light emitting device module according to claim 7 , wherein the light source unit includes: a board located at the upper side of the body; a plurality of light emitting devices disposed on the board; a board hole extending through the board, the board hole being in communication with the air hole; a plurality of lenses configured to shield the light emitting devices and to refract light emitted from the light emitting devices; a lens cover supporting the lenses, the lens cover having a shape generally corresponding to a shape of the board; and a cover hole extending through the lens cover, the cover hole being in communication with the air hole. 10. The light emitting device module according to claim 7 , wherein the light source unit includes: a plurality of boards located at the first side of the body, each board including a light emitting device disposed on the board, wherein the passive airflow promotion channel is located between at least two of the boards. 11. The light emitting device module according to claim 10 , further comprising: a lens disposed on each of the boards, the lens being configured to shield the light emitting devices and to refract light emitted from the light emitting devices. 12. The light emitting device module according to claim 7 , wherein the light source unit includes: a first board located at the first side of the body; a second board located at the first side of the body; a first plurality of light emitting devices disposed on the first board; and a second plurality of light emitting devices disposed on the second board, wherein the passive airflow promotion channel is located between the first board and the second board. 13. The light emitting device module according to claim 12 , further comprising: a first lens cover having a shape corresponding to that of the first board; a second lens cover having a shape corresponding to that of the second board; and a plurality of lenses disposed on the first lens cover and the second lens cover, the plurality of lenses being configured to shield the light emitting devices and to refract light emitted from the light emitting devices. 14. A lighting apparatus comprising: a main body; and a light emitting device module received by said main body, the light emitting device module comprising: a body having a first side and a second side opposite to the first side; a light source unit located at the first side of the body; a plurality of radiation fins disp