Infrared sensor and method for manufacturing same, filter member for infrared sensor, and photocoupler

The invention claimed is: 1. An infrared sensor comprising: a filter member; a connection member; and a sensor member, wherein the filter member includes a first lead terminal, an optical filter, and a first mold member configured to mold to the first lead terminal and the optical filter, a light incidence surface and a light emission surface of the optical filter are exposed from the first mold member, the sensor member includes an infrared sensor element, a second lead terminal electrically connected to the infrared sensor element, and a second mold member configured to mold to the infrared sensor element and the second lead terminal, a light-receiving surface of the infrared sensor element is exposed from the second mold member, the filter member is disposed on the sensor member, wherein the light emission surface of the optical filter faces the light-receiving surface of the infrared sensor element in the sensor member; and the connection member is disposed between the filter member and the sensor member, and hollow portions are present between the filter member and the sensor member. 2. The infrared sensor according to claim 1 , wherein the first lead terminal is exposed from the first mold member and the second lead terminal is exposed from the second mold member. 3. The infrared sensor according to claim 1 , wherein, when, out of side surfaces of the filter member, a side surface on a light emission surface side of the optical filter is defined as a first side surface, the first lead terminal is exposed from the first mold member on the first side surface. 4. The infrared sensor according to claim 1 , wherein, when, out of the side surfaces of the filter member, the side surface on the light emission surface side of the optical filter is defined as a first side surface, the first lead terminal is exposed from the first mold member on a side surface opposite to the first side surface. 5. The infrared sensor according to claim 1 , wherein, when, out of the side surfaces of the filter member, the side surface on the light emission surface side of the optical filter is defined as a first side surface, the first lead terminal is exposed from the first mold member on a side surface perpendicular to the first side surface. 6. The infrared sensor according to claim 3 , wherein, when, out of side surfaces of the sensor member, a side surface on a light-receiving surface side of the infrared sensor element is defined as a second side surface, the second lead terminal is exposed from the second mold member on at least one side surface out of the second side surface, a side surface opposite to the second side surface, and a side surface perpendicular to the second side surface. 7. The infrared sensor according to claim 6 , wherein the first lead terminal in the filter member is exposed from the first mold member on the first side surface, the second lead terminal in the sensor member is exposed from the second mold member on the second side surface, and the infrared sensor further comprises a connection member configured to connect the first lead terminal exposed on the first side surface and the second lead terminal exposed on the second side surface. 8. The infrared sensor according to claim 7 , wherein the connection member is an insulating member. 9. The infrared sensor according to claim 7 , wherein the connection member is a conductive member. 10. The infrared sensor according to claim 1 , further comprising: hollow portions between the filter member and the sensor member. 11. The infrared sensor according to claim 1 , wherein the optical filter is disposed between members constituting the first lead terminal, and the infrared sensor element is disposed between members constituting the second lead terminal. 12. The infrared sensor according to claim 1 , wherein the first lead terminal and the second lead terminal have the same shape. 13. The infrared sensor according to claim 1 , wherein the first lead terminal and the second lead terminal are disposed at positions so as to face each other. 14. A method for manufacturing an infrared sensor, comprising: a filter member-forming step of forming a filter member including a first lead terminal, an optical filter, and a mold member configured to mold to the first lead terminal and the optical filter, wherein a light incidence surface and a light emission surface of the optical filter are exposed from the first mold member; a sensor member-forming step of forming a sensor member including an infrared sensor element, a second lead terminal electrically connected to the infrared sensor element, and a second mold member configured to mold to the infrared sensor element and the second lead terminal, wherein a light-receiving surface of the infrared sensor element is exposed from the second mold member; a connection member forming step of applying a connection member to a rear surface of the filter member so that the connection member is disposed between the filter member and the sensor member, and hollow portions are present between the filter member and the sensor member; and a disposition step of disposing the filter member on the sensor member so that the light emission surface of the optical filter in the filter member faces the light-receiving surface of the infrared sensor element in the sensor member. 15. The method for manufacturing an infrared sensor according to claim 14 , wherein the filter member-forming step includes an optical filter-disposing step of disposing the optical filter in a first opening in the first lead frame including the first lead terminal, a step of sandwiching the first lead frame and the optical filter using a first mold, a step of loading the first mold member between the first lead frame and the optical filter sandwiched using the first mold and molding the first lead frame and the optical filter, and a taking-out step of taking out the first mold from the first lead frame, the optical filter, and the first mold member. 16. The method for manufacturing an infrared sensor according to claim 15 , wherein the optical filter-disposing step includes a step of disposing the first lead frame on a surface including a gluing layer of a base material, and the taking-out step includes a step of peeling the base material off from the first lead frame. 17. The method for manufacturing an infrared sensor according to claim 15 , wherein the filter member-forming step includes a step of forming filter members individualized by cutting a filter member including the first lead frame and the optical filter molded therein. 18. The method for manufacturing an infrared sensor according to claim 15 , wherein the sensor member-forming step includes a step of disposing the infrared sensor element in a second opening in the second lead frame including the second lead terminal; a step of electrically connecting the infrared sensor element to the second lead terminal; a step of sandwiching the second lead frame and the infrared sensor element using a second mold; a step of loading the second mold member between the second lead frame and the infrared sensor element sandwiched using the second mold and molding the second lead frame and the infrared sensor element; and a step of taking out the second mold from the second lead frame, the infrared sensor element and the second mold member. 19. The method for manufacturing an infrared sensor according to claim 18 , wherein the first lead frame and the second lead frame have the same shape.