Transverse concealed latch system

The invention claimed is: 1. A latch mechanism, comprising: a housing; a latchbolt pivotably mounted to the housing for pivotal movement about a latchbolt axis between a latching position and an unlatching position; a blocking member pivotably mounted to the housing for pivotal movement about a blocking member axis between a blocking position and an unblocking position, and wherein the blocking member axis extends at an angle relative to the latchbolt axis; a linkage movably mounted to the housing for movement between a first linkage position and a second linkage position; and a spring biasing the linkage toward the first position; wherein the linkage is pivotably coupled with the blocking member such that the first linkage position is correlated with the blocking position and the second linkage position is correlated with the unblocking position; wherein the blocking member in the blocking position prevents movement of the latchbolt from the latching position to the unlatching position; wherein the blocking member in the unblocking position permits movement of the latchbolt between the latching position and the unlatching position; and wherein the latchbolt is operably decoupled from the linkage and is operable to move independently of the linkage when the blocking member is in the unblocking position. 2. The latch mechanism of claim 1 , wherein the latchbolt in the unlatching position retains the blocking member in the unblocking position. 3. The latch mechanism of claim 2 , wherein the latchbolt comprises a projection; wherein a first surface of the blocking member contacts an end of the projection when the blocking member is in the blocking position and the latchbolt is in the latching position; and wherein a second surface of the blocking member contacts a side of the projection when the latchbolt is retaining the blocking member in the unblocking position. 4. The latch mechanism of claim 1 , wherein the latchbolt comprises a cavity; and wherein, when the latchbolt is in the unlatching position and the blocking member is in the unblocking position, at least a portion of the blocking member is received in the cavity. 5. The latch mechanism of claim 1 , wherein the blocking member axis is perpendicular to the latchbolt axis. 6. The latch mechanism of claim 1 , wherein the latchbolt comprises a retention channel extending along a direction defined by the latchbolt axis, wherein the retention channel is operable to receive a portion of a strike. 7. A latch mechanism, comprising: a housing; a latchbolt pivotably mounted to the housing for pivoting about a latchbolt axis; a blocking member pivotably mounted to the housing for pivoting about a blocking member axis extending transverse to the latchbolt axis; a link slidably mounted to the housing for movement along a link axis transverse to the latchbolt axis and the blocking member axis; and a spring engaged with the link and urging the link from a first position toward a second position; wherein the blocking member is operable to selectively prevent pivoting of the latchbolt about the latchbolt axis and is coupled with the link such that the blocking member prevents pivoting of the latchbolt when the link is in the second position; wherein the latchbolt is operable to selectively prevent pivoting of the blocking member to selectively retain the link in the first position against the urging of the spring; and wherein the latchbolt is decoupled from the link such that the latchbolt is operable to move independently of the link when the link is in the second position. 8. The latch mechanism of claim 7 , wherein the latchbolt axis is perpendicular to the blocking member axis. 9. The latch mechanism of claim 8 , wherein the latchbolt axis, the blocking member axis, and the link axis are mutually orthogonal. 10. The latch mechanism of claim 7 , wherein the latchbolt comprises a cavity that receives a portion of the blocking member when the latchbolt is in a pivoted position and the link is in the first position. 11. The latch mechanism of claim 7 , wherein the latchbolt comprises a body portion defining a retention channel, and a projection that projects from the body portion and engages the blocking member. 12. The latch mechanism of claim 7 , wherein the latchbolt has a home position and a pivoted position; wherein the blocking member has an unblocking position in which the latchbolt is movable between the home position and the pivoted position and a blocking position in which the blocking member retains the latchbolt in the home position; and wherein the latchbolt in the pivoted position retains the blocking member in the unblocking position. 13. A system including the latch mechanism of claim 7 , the system further comprising an actuation device and a flexible cable connected between the actuation device and the link such that the actuation device is operable to pull the cable to move the link from the first position to the second position against the urging of the spring. 14. The latch mechanism of claim 7 , wherein the link is pivotably coupled with the blocking member. 15. The latch mechanism of claim 7 , wherein the latchbolt comprises an L-shaped retention area. 16. A latch mechanism adapted to engage a door strike, the latch mechanism comprising: a housing; a latch apparatus mounted to the housing for pivotal movement about a first axis between a latching position and an unlatching position, wherein the latch apparatus comprises a projection and a cavity adjacent the projection, wherein the projection and the cavity are offset from one another along the first axis, wherein the latch apparatus includes a retention area sized and shaped to receive the door strike when the latch apparatus is in the latching position, and wherein the retention area extends in a direction of the first axis; a cam device mounted to the housing for pivotal movement about a second axis between a blocking position and an unblocking position, and wherein the second axis is non-parallel to the first axis; a link movably mounted in the housing, wherein the link is engaged with the cam device such that movement of the link in a longitudinal direction of the link is correlated with pivoting of the cam device about the second axis, and wherein the link is pivotably coupled with the cam device; and a spring mounted in the housing and urging the cam device toward the blocking position; wherein the latch apparatus when in the unlatching position retains the cam device in the unblocking position against the urging of the spring; wherein the cam device when in the blocking position retains the latch apparatus in the latching position; and wherein the latch apparatus is decoupled from the link and is operable to move independently of the link when the cam device is in the unblocking position. 17. The latch mechanism of claim 16 , wherein an end portion of the projection engages the cam device when the cam device is in the blocking position and the latch apparatus is in the latching position, and wherein a portion of the cam device is received in the cavity and abuts a side surface of the projection when the cam device is in the unblocking position and the latch device is in the unlatching position. 18. The latch mechanism of claim 16 , wherein the housing extends along a longitudinal axis, and wherein the first axis, the second axis, and the longitudinal axis are mutually orthogonal. 19. The latch mechanism of claim 16 , wherein the spring biases the link toward a first link position i