Security gate with gate lock

The invention claimed is: 1. A process for withdrawing a latch mounted for sliding movement on a gate toward a gate-pivot axis associated with the gate to disengage a latch receiver included in a gate mount that is adapted to mate with a frame bordering a passageway, formed to include a walkway passage through which a person may walk, and used to support the gate for pivotable movement about the gate-pivot axis between a closed position closing the walkway position formed in the gate mount to block movement of a person through the walkway passage and an opened position opening the walkway passage, the process comprising the steps of mounting a pivotable latch retractor on a top rail of the gate to engage a latch-retractor pin that is coupled to the latch to slide with the latch relative to the top rail of the gate as the latch slides from an extended position engaging the latch receiver formed in the gate mount to a retracted position disengaging the latch receiver formed in the gate mount and to pivot on the top rail about a retractor-pivot axis between a lowered position lying alongside the top rail of the gate and a pivoted position lying at an angle to the top rail of the gate, locating a slidable retractor release on the pivotable latch retractor to engage the latch-retractor pin to block pivotable movement of the pivotable latch retractor about the retractor-pivot axis while the slidable retractor release remains in a forward position lying at a first distance from the gate-pivot axis and the latch remains in the extended position engaging the latch receiver formed in the gate mount to block pivoting movement of the gate about the gate-pivot axis, sliding the slidable retractor release on the pivotable latch retractor from the forward position in a direction toward the gate-pivot axis to a rearward slide-back position lying at a relatively smaller second distance from the gate-pivot axis to disengage the pivotable latch retractor from the latch-retractor pin to release the pivotable latch retractor so that the pivotable latch retractor is free to pivot upwardly about the retractor-pivot axis from the lowered position to the pivoted position, and pivoting the pivotable latch retractor upwardly about the retractor-pivot axis from the lowered position to the pivoted position while the slidable retractor release remains in the rearward slide-back position on the pivotable latch retractor to apply a retraction force to the latch-retractor pin to cause the latch to move relative to the gate and the gate mount from the extended position engaging the latch receiver formed in the gate mount to the retracted position disengaging the latch receiver formed in the gate mount to free the gate to be pivoted about the gate-pivot axis from the closed position to the opened position to allow movement of a person through the walkway passage formed in the gate mount. 2. The process of claim 1 , wherein the pivotable latch retractor includes first pin-guide means for moving the latch-retractor pin away from the latch receiver formed in the gate mount in a direction toward the gate-pivot axis to cause the latch to move from the extended position to the retracted position in response to upward pivoting movement of the pivotable latch retractor relative to the top rail about the retractor-pivot axis. 3. The process of claim 2 , wherein the pivotable latch retractor includes a retractor top wall lying above the top rail of the gate and a retractor side wall depending from the top wall to lie alongside a vertical side wall of the top rail and the first pin-guide means is provided by a positively sloping slanted slot formed in the retractor side wall to receive the latch-retractor pin for back-and-forth sliding movement therein along a positively sloping path. 4. The process of claim 3 , wherein the slidable retractor release includes a release side wall arranged to lie in laterally spaced-apart relation to the vertical side rail of the top rail of the gate to locate the retractor side wall therebetween, the release side wall is formed to include a 7-shaped pin-receiver slot comprising a horizontal slot segment and a positively sloping angled slot segment communicating with a right end of the horizontal slot segment at a segment junction between the horizontal and angled slot segment and aligning in side-by-side parallel relative to one another with the positively sloping slanted slot formed in the retractor side wall only when the slidable retractor release occupies the rearward slide-back position on the pivotable latch retractor, the latch-retractor pin is arranged to lie in the horizontal slot segment formed in the slidable retractor release when the slidable retractor release occupies the forward position on the pivotable latch retractor to engage a segment edge included in the slidable retractor release to block pivotable movement of the pivotable latch retractor from the lowered position to the pivoted position, and the latch-retractor pin is arranged to lie in the positively sloping angled slot segment formed in the slidable retractor release following sliding movement of the slidable retractor release on the pivotable latch retractor from the forward position to the rearward position to free the latch-retractor pin to move in each of the positively sloping angled and slanted slots simultaneously and thereby allow pivoting movement of the pivotable latch retractor from the lowered position to the pivoted position to cause the latch to move from the extended position to the retracted position. 5. The process of claim 2 , wherein the locating step further includes the step of interposing a release-biasing spring between the pivotable latch retractor and the slidable retractor release to yieldably urge the slidable retractor release to assume the forward position until the slidable retractor release is moved relative to the pivotable latch retractor toward the rearward slide-back position. 6. The process of claim 5 , wherein the spring is a coiled compression spring arranged to lie between the latch and the slidable retractor release, one end of the coiled compression spring is arranged to engage a spring-engagement surface of the pivotable latch retractor, and an opposite end of the coiled compression spring is arranged to engage a flange included in the slidable retractor release and movement of the slidable retractor release from the forward position toward the rearward slide-back position causes the flange to move toward the spring-engagement surface of the pivotable latch retractor to compress the coiled compression spring. 7. The process of claim 6 , wherein the latch includes a slidable shuttle mounted for sliding movement in the top rail of the gate, a lock bolt arranged to extend beyond an end of the top rail of the gate to engage the latch receiver when the latch occupies the extended position and arranged to lie within the top rail of the gate to disengage the latch receiver when the latch occupies the retracted position, and a bolt-biasing spring acting between the slidable shuttle and the lock bolt normally to extend the lock bolt into the latch receiver when the gate is in the closed position, and wherein the latch-retractor pin is coupled to the slidable shuttle to move therewith. 8. The process of claim 1 , wherein the pivotable latch retractor is formed to include a slanted pin-receiver slot, the slidable retractor release is formed to include a 7-shaped pin-receiver slot comprising a horizontal slot segment and a positively sloping angled slot segment communicating with a right end of the horizontal slot segment at a segment junction between the horizontal and angled slot segments, the latch-retractor pin is arranged to extend through the slanted pin-receiver slot formed in the p