Tamperproof gate mechanism

The invention claimed is: 1. A crossing gate mechanism comprising: a linkage operably coupled to a crossing gate arm, a housing, the linkage being positioned in the housing, wherein the crossing gate arm is movable between a vertical position and a horizontal position via the linkage, wherein the linkage is in a first position when the crossing gate arm is in the vertical position and in a second position when the crossing gate arm is in the horizontal position, wherein the linkage in the second position mechanically locks the crossing gate arm in the horizontal position, wherein the linkage comprises a gear that is configured as a segment gear, wherein teeth of the segment gear extend over a range of about 180°, wherein a first spring buffer is arranged on an inner sidewall of the housing and serves as a stopping point for the segment gear when the crossing gate arm is in the horizontal position, and wherein a second spring buffer is arranged on the inner sidewall of the housing and provides a resting location for the linkage in an unpowered descent of the crossing gate arm, wherein the linkage comprises a first connecting member rotatably coupled at a first end to the crossing gate arm and a second connecting member rotatably coupled at a first end to the gear, wherein the first connecting member and the second connecting member are coupled to each other at a connecting point at respective second ends, and further comprising a third connecting member connected at a first end to a stationary part and at a second end to the connecting point of the first and second connecting members. 2. The crossing gate mechanism as claimed in claim 1 , wherein the linkage comprises an over-center linkage. 3. A railroad crossing gate comprising: a crossing gate arm, and a gate mechanism with a linkage operably coupled to the crossing gate arm, a housing, the linkage being positioned in the housing, wherein the crossing gate arm is movable between a vertical position and a horizontal position via the linkage, wherein the linkage is in a first position when the crossing gate arm is in the vertical position and in a second position when the crossing gate arm is in the horizontal position, wherein the linkage in the second position mechanically locks the crossing gate arm in the horizontal position, wherein the linkage comprises a gear that is configured as a segment gear, wherein teeth of the segment gear extend over a range of about 180°, wherein a spring buffer is arranged on an inner sidewall of the housing and serves as a stopping point for the segment gear when the crossing gate arm is in the horizontal position, and wherein a second spring buffer is arranged on the inner sidewall of the housing and provides a resting location for the linkage in an unpowered descent of the crossing gate arm, wherein the linkage comprises a first connecting member rotatably coupled at a first end to the crossing gate arm and a second connecting member rotatably coupled at a first end to the gear, and wherein the first connecting member and the second connecting member are coupled to each other at a connecting point at respective second ends, and further comprising a third connecting member connected at a first end to a stationary part and at a second end to the connecting point of the first and second connecting members. 4. The railroad crossing gate as claimed in claim 3 , wherein the linkage comprises an over-center linkage. 5. The railroad crossing gate as claimed in claim 3 , wherein the gate mechanism is powered by an electric motor and gear train. 6. The railroad crossing gate as claimed in claim 3 , wherein the crossing gate arm comprises a pedestrian gate arm or a vehicle gate arm. 7. The railroad crossing gate as claimed in claim 3 , wherein the crossing gate arm comprises a pedestrian gate arm, and wherein the railroad crossing gate further comprises a vehicle gate arm, wherein the gate mechanism is configured to operate both the pedestrian gate arm and vehicle gate arm.