Security gate with latch release

The invention claimed is: 1. A process for operating a gate latch coupled to a swinging gate mounted for pivotable movement on a gate mount mated with a frame or wall to release the gate latch from engagement with a latch-side frame mount of the gate mount so as to free the swinging gate to swing from a closed position to an opened position, the process including the steps of withdrawing a first-stage latch pin of the gate latch from a first pin-receiver slot formed in a top pin retainer of the latch-side frame mount to free the top pin retainer to be moved downwardly from a raised position to a relatively lower lowered position relative to the swinging gate while the swinging gate is in the closed position and relative to a bracket of the latch-side frame mount, the bracket mounted in a stationary position on the frame or wall and moving the top pin retainer relative to the swinging gate and the bracket downwardly from the raised position to the relatively lower lowered position while the first-stage latch pin is withdrawn from the first pin-receiver slot formed in the top pin retainer and while the swinging gate is in the closed position to discharge a top second-stage latch pin of the gate latch from a second pin-receiver slot also formed in the top pin retainer so as to disengage the gate latch from the latch-side frame mount to free the swinging gate to pivot about a gate-pivot axis from the closed position to the opened position. 2. The process of claim 1 , wherein the withdrawing step includes applying a first force to a pin-motion trigger that is coupled to the first-stage latch pin to move the first-stage latch pin against a biasing force provided by a first pin-pusher spring of the gate latch so that an outer tip of the first-stage latch pin is withdrawn from the first pin-receiver slot formed in the top pin retainer. 3. The process of claim 2 , wherein the moving step includes applying a second force to a retainer-motion trigger that is coupled to the top pin retainer while the first force is being applied to the pin-motion trigger to cause the top pin retainer and a retainer mover arm coupled to the top pin retainer to move downwardly relative to the bracket to compress an arm-lift spring acting between the retainer mover arm and the bracket so that the top pin retainer is moved relative to the bracket from the raised position to the relatively lower lowered position to cause an inclined top ramp of the top pin retainer to apply a lateral force to an outer tip of the top second-stage latch pin to move the top second-stage latch pin against a top second pin-pusher spring of the gate latch so that the outer tip of the top second-stage latch pin is withdrawn from the second pin-receiver slot formed in the top pin retainer. 4. The process of claim 3 , wherein the first force is applied laterally to the pin-motion trigger by a finger of a gate operator gripping the gate latch with a hand and the second force is applied downwardly to the retainer-motion trigger by a thumb of the hand of the gate operator. 5. The process of claim 3 , further comprising lowering a bottom pin retainer, included in the latch-side frame mount and located below the top pin retainer, relative to the swinging gate and the bracket from a raised position to a relatively lower lowered position at the same time that the top pin retainer is being moved in the moving step to discharge a bottom second-stage latch pin of the gate latch from a bottom second pin-receiver slot formed in the bottom pin retainer so as to disengage the gate latch from the latch-side frame mount to free the swinging gate to pivot about the gate-pivot axis from the closed position to the opened position. 6. The process of claim 3 , wherein the gate latch further includes a housing coupled to the swinging gate to pivot with the swinging gate about the gate-pivot axis and the housing includes a first-stage pin channel supporting the first-stage latch pin for movement of the first-stage latch pin relative to the housing, the first pin-pusher spring is arranged to act against the housing to apply the biasing force to an inner end of the first-stage latch pin, and the pin-motion trigger includes an inner end coupled to the first-stage latch pin and an outer end arranged to extend through an opening formed in the housing to provide an exposed operator-finger grip which is arranged to receive the first force to cause the first-stage latch pin to be withdrawn from the first pin-receiver slot and compress the first pin-pusher spring. 7. The process of claim 6 , wherein the housing also includes a second-stage pin channel supporting the top second-stage latch pin for movement of the top second-stage latch pin relative to the housing and the top second pin-pusher spring is arranged to act against the housing to apply a yieldable biasing force to an inner end of the top second-stage latch pin to urge the outer tip of the top second-stage latch pin into the second pin-receiver slot formed in the top pin retainer when the swinging gate is in the closed position, and the second pin-receiver slot includes a top ramp configured to engage the outer tip of the top second-stage latch pin when the swinging gate is in the closed position and the top pin retainer is moved downwardly from the raised position to the relatively lower lowered position to move the top second-stage latch pin in the second-stage pin channel to compress the top second pin-pusher spring and to discharge the top second-stage latch pin from the second pin-receiver slot formed in the top pin retainer. 8. The process of claim 7 , wherein the second pin-receiver slot further includes a bottom ramp arranged to lie in spaced-apart relation to the top ramp to locate the second pin-receiver slot therebetween. 9. The process of claim 3 , wherein the retainer mover arm is coupled to the top pin retainer for movement relative to the bracket in response to movement of the top pin retainer relative to the bracket, and wherein the arm-lift spring is configured to yieldably urge the top pin retainer to the raised position. 10. The process of claim 1 , wherein the swinging gate includes a hinge-side end and a latch-side end, the gate mount includes a hinge-side frame mount mated with the frame or wall and coupled to the swinging gate to define the gate-pivot axis and support the swinging gate for pivotable movement about the gate-pivot axis, the top pin retainer of the latch-side frame mount is biased toward the raised position by a spring and is arranged to move up and down relative to the latch-side end of the swinging gate between the raised position and the relatively lower lowered position, and the gate latch is coupled to the latch-side end of the swinging gate to move with the swinging gate about the gate-pivot axis, when the swinging gate is in the closed position and the first-stage latch pin extends into the first pin-receiver slot, the first-stage latch pin blocks pivotable movement of the swinging gate and blocks up-and-down movement of the top pin retainer relative to the latch-side end of the swinging gate, and the top second-stage latch pin extends into the second pin-receiver slot to block pivotable movement of the swinging gate when the swinging gate is in the closed position and the top pin retainer is in the raised position. 11. The process of claim 10 , wherein the gate latch includes a top latch comprising the first-stage latch pin and the top second-stage latch pin and a bottom latch coupled to the latch-side end of the swinging gate and arranged below and in spaced-apart relation to the top latch, the bottom latch includes a bottom second-stage latch pin arranged to extend into a bottom second-pin-recei