Ember and flame resistant resettable automatic soffit vent

What is claimed is: 1. An ember and flame resistant resettable automatic soffit vent comprising: a main body having a floor; a plurality of ventilation openings formed through the floor of the main body; a slide in the main body, the slide being movable between an open position allowing airflow through the plurality of ventilation openings and a closed position preventing airflow through the plurality of ventilation openings; a biasing structure configured and positioned to urge the slide yieldably toward its closed position; a thermal link assembly configured to hold the slide in its open position against the bias of the biasing structure when a temperature at the soffit vent is below a predetermined threshold; the thermal link assembly being constructed to break apart when the temperature at the soffit vent rises above the predetermined temperature to allow the biasing structure to move the slide to its closed position thereby closing off airflow through the plurality of ventilation openings; and a latch bar assembly comprising a fixed latch base secured to the main body and a latch slide slidably secured to the latch bar, the thermal link assembly being attached to the latch slide and to the slide so that the slide can be manually moved between its open and closed positions while the thermal link assembly remains intact. 2. An ember and flame resistant resettable automatic soffit vent as claimed in claim 1 wherein the main body further comprises upstanding peripheral walls, the slide being movable within the peripheral walls between the open and closed positions of the slide. 3. An ember and flame resistant resettable automatic soffit vent as claimed in claim 2 wherein the main body is rectangular in shape and the slide moves between opposite ones of the upstanding peripheral walls between the open and closed positions of the slide. 4. An ember and flame resistant resettable automatic soffit vent as claimed in claim 1 further comprising a plurality of ventilation openings formed through the slide, the ventilation openings formed through the slide aligning with the ventilation openings formed through the floor of the main body when the slide is in its open position and misaligning with the ventilation openings formed through the floor of the mail body when the slide is in its closed position. 5. An ember and flame resistant resettable automatic soffit vent as claimed in claim 1 , wherein the thermal link assembly is configured to connect to the second end of the latch bar assembly and to the slide so that the thermal link assembly holds the slide in its open position against the bias of the biasing structure when the temperature at the soffit vent is below the predetermined threshold. 6. An ember and flame resistant resettable automatic soffit vent as claimed in claim 1 wherein the slide comprises an actuation tab that extends beyond the main body to allow a user to move the slide manually between its open and closed positions. 7. An ember and flame resistant resettable automatic soffit vent as claimed in claim 1 wherein the thermal link assembly comprises at least one tension spring configured to pull against the bias of the biasing member. 8. An ember and flame resistant resettable automatic soffit vent as claimed in claim 1 wherein the thermal link assembly comprises at least one chain link configured to hold the slide in its open position against the bias of the biasing member. 9. An ember and flame resistant resettable automatic soffit vent as claimed in claim 1 wherein the biasing member comprises a tension spring attached at one end to the main body and at another end to the slide. 10. A soffit vent comprising: a tray having a floor and upstanding peripheral walls; a plurality of ventilation openings formed through the floor of the tray to allow airflow through the soffit vent; a slide movably mounted within the tray adjacent the floor and being movable between an open position wherein air is free to flow through the plurality of ventilation openings and a closed position wherein air is prevented from flowing through the plurality of ventilation openings; a spring connected between the tray and the slide and configured to urge the tray yieldably toward its closed position; a thermal link connected between the tray and the slide and configured to hold the slide in its open position against the bias of the spring when a temperature at the soffit vent is below a predetermined threshold; and wherein the thermal link is configured to break apart when a temperature at the soffit vent rises above the predetermined threshold to allow the spring to move the slide to its closed position; a latch bar assembly comprising a fixed latch base connected at a first end to a peripheral wall of the tray and a latch slide slidably secured to the fixed latch bar, the thermal link being attached to the latch slide and to the slide so that the slide can be manually moved between its open and closed positions while the thermal link remains intact. 11. A soffit vent as claimed in claim 10 wherein one of the fixed latch base and the latch slide is formed with a slot and the other one of the fixed latch base and the latch slide is formed with a latch fastener that extends through the slot so that the latch fastener moves along the slot as the latch slide moves relative to the fixed latch base. 12. A soffit vent as claimed in claim 10 wherein the thermal link is attached at one end to an end of the latch slide and at another end to the slide of the soffit vent. 13. A soffit vent as claimed in claim 10 further comprising an actuation tab coupled to the slide and accessible by a user to move the slide manually between its open position and its closed position. 14. A method of closing a vent in the presence of a temperature above a predetermined threshold, the method comprising: (a) applying a yieldable biasing force configured to bias the vent toward a closed condition in which airflow through the vent is blocked; (b) using a thermal link to hold the vent in an open condition against the biasing force, wherein the thermal link is configured to be attached a latch slide of a latch bar assembly secured to the vent, and to a slide positioned in the main body; (c) allowing the thermal link to break when the temperature at the vent rises above the predetermined threshold, the yieldable biasing force, upon the breaking of the thermal link, establishing the closed condition of the vent; and (d) allowing the slide to be manually moved between an open position allowing airflow through the plurality of ventilation openings and a closed position preventing airflow through the plurality of ventilation openings while the thermal link remains intact. 15. The method of claim 14 wherein the yieldable biasing force is applied with a spring.