Two-stage valve actuation system

What is claimed is: 1. An apparatus for actuating a valve assembly, the apparatus comprising: an actuation lever having a first lever portion and a second lever portion, the actuation lever pivotally connected to the valve assembly at the first lever portion, and the second lever portion operated such that the actuation lever pivots between a first lever position and a second lever position, wherein, in the first lever position, the first lever portion disengages the valve assembly to prevent fluid flow through the valve assembly, and wherein, in the second lever position, the first lever portion engages the valve assembly to permit fluid flow through the valve assembly; a safety latch having a first latch portion and a second latch portion, the safety latch pivotally connected to the actuation lever at a pivot point, the pivot point arranged between the first lever portion and the second lever portion, the safety latch configured to pivot between a first latch position and a second latch position, wherein, in the first latch position, the actuation lever is in the first lever position, the second latch portion covers at least a portion of the second lever portion, and the first latch portion is configured to prevent the actuation lever from pivoting from the first lever position to the second lever position, and wherein, in the second latch position, the second latch portion is lifted away from the second lever portion and the actuation lever is in the second lever position; and a biasing member engaged between the actuation lever and the safety latch and configured to bias the actuation lever to the first lever position and the safety latch to the first latch position, wherein the safety latch is configured such that, when the second lever portion of the actuation lever is depressed to the second lever position, the second latch portion is further lifted away from the second lever portion to move to the second latch position. 2. The apparatus of claim 1 , wherein the safety latch is configured such that, as the second latch portion is lifted from the first latch position toward the second latch position, the second lever portion of the actuation lever becomes accessible to operate the actuation lever to the second lever position. 3. The apparatus of claim 1 , wherein the safety latch is pivotally connected to the actuation lever at a pivot point arranged between the first latch portion and the second latch portion. 4. The apparatus of claim 3 , wherein the first latch portion has a contact end configured to move along a support surface as the safety latch moves between the first and second latch positions. 5. The apparatus of claim 4 , wherein the contact end includes a rolling element. 6. The apparatus of claim 4 , wherein, when the first latch portion is depressed toward the second lever portion of the actuation lever at the first latch position, the contact end of the first latch portion is in contact with the support surface and resists the depressing force. 7. The apparatus of claim 1 , wherein the safety latch is configured such that, as the second latch portion is lifted from the first latch position, the first latch portion moves along the support surface away from the valve assembly, and the actuation lever pivots relative to the valve assembly to generally move the second lever portion of the actuation lever close to the support surface. 8. The apparatus of claim 1 , wherein the second lever portion of the actuation lever includes a pedal adapted to be operated by foot. 9. The apparatus of claim 1 , further comprising the valve assembly, the valve assembly including: a valve body; and a valve closure element received in the valve body, the valve closure element movable between a first valve position in which the valve closure element closes the valve assembly to prevent fluid flow therethrough and a second valve position in which the valve closure element opens the valve assembly to permit fluid flow therethrough. 10. A method of actuating a valve assembly, the method comprising: providing an actuation device, the actuation device including: an actuation lever having a first lever portion and a second lever portion and pivotally connected to the valve assembly at the first lever portion; a safety latch having a first latch portion and a second latch portion, the safety latch pivotally connected to the actuation lever at a pivot point between the first and second latch portions, the pivot point arranged between the first lever portion and the second lever portion; and a biasing member engaged between the actuation lever and the safety latch; raising the second latch portion of the safety latch from a first latch position to pivot about the actuation lever until the second lever portion is accessible; depressing the second lever portion of the actuation lever from a first lever position to enable the actuation lever to pivot about the valve assembly until the first lever portion engages and actuates the valve assembly to permit fluid flow therethough; and releasing the second lever portion of the actuation lever to enable the actuation lever return to the first lever position and the safety latch to return to the first latch position by the biasing member. 11. The method of claim 10 , wherein raising the second latch portion comprises: raising the second latch portion to pivot about the actuation lever until the second lever portion is accessible before the first lever portion of the actuation lever engages the valve assembly. 12. The method of claim 10 , wherein depressing the second lever portion comprises: depressing the second lever portion to enable the second latch portion to be further raised as the actuation lever pivots about the valve assembly until the first lever portion engages and actuates the valve assembly. 13. The method of claim 10 , wherein: the first latch portion has a contact end configured to move along a support surface as the safety latch is raised; and when the first latch portion is depressed toward the second lever portion of the actuation lever at the first latch position, the contact end of the first latch portion is in contact with the support surface and resist the depressing force. 14. The method of claim 10 , wherein raising the second latch portion comprises: raising the second latch portion to pivot about the actuation lever to enable the first latch portion to move along a support surface and pivot the actuation lever relative to the valve assembly to generally move the second lever portion of the actuation lever toward the support surface. 15. A valve system comprising: a valve assembly including a valve body and a valve closure element received in the valve body, the valve closure element movable between a first valve position in which the valve closure element closes the valve assembly to prevent fluid flow therethrough and a second valve position in which the valve closure element opens the valve assembly to permit fluid flow therethrough; an actuation lever having a first lever portion and a second lever portion, the actuation lever pivotally connected to the valve body at the first lever portion, and the second lever portion operated such that the actuation lever pivots between a first lever position and a second lever position, wherein, in the first lever position, the first lever portion disengages the valve assembly to prevent fluid flow through the valve assembly, and wherein, in the second lever position, the first lever portion engages the valve assembly to permit fluid flow through the valve assembly; a safety latch having a first latch port