The rails must align the matrix to clear the distributor screws and the aligning plate on the combination bar without binding. The matrix must also pass between the vertical face of the rails and the bar point. If these rails become worn, they will permit more than one thin matrix to pass the bar point, or will not lift the matrix so it will clear the screws properly, because of the unevenness of the vertical face of the rails. This will bend the ears of the matrix and stop the distributor.
The only remedy for worn rails is to apply new ones. Four new rails must be applied, as the vertical faces of all the four rails wear, and this is the only method of obtaining the proper alignment again.
A safety spring is pinned in a grooved part of the upper front rail at the right end to prevent matrices turning and getting caught by the lift when the shifter is suddenly withdrawn. It is only the matrix ready to be lifted that need be held by the spring.
As the matrices are lifted by the matrix lift they must pass between the vertical face on the rails and the bar point. All matrices are the same thickness where they pass this point. There is just sufficient space between the rails and the bar point for but one thin matrix to pass when lifted by the matrix lift. If the bar point becomes worn or broken it will permit more than one thin matrix to be lifted to the distributor screws, resulting in the clogging of the channel entrance or bending the matrix.
When the bar point becomes worn a new one should be applied. A new bar point can be applied by removing the bar, and, with a small nail set, driving out the two pins that hold the bar point. Put the new point in its proper position, place the bar in the box, and test with a thin matrix by raising the lift. The matrix should pass the point without binding. When the point is set properly, remove the bar from the box and drill two holes for the pins. Sometimes the bar point can be drawn out a little by peening it with a small machinist hammer. However, extreme care must be used, so the bar rails will not be damaged by the hammer. Just a few light taps of the hammer should be sufficient.
The font distinguisher is placed in the lower right end of the box, between the two lower rails. All the matrices must pass this distinguisher. When properly adjusted, it will stop all matrices of a different font size to the one being used, or one of the same font turned backwards. To change font distinguisher, turn the stud one complete turn for each size. Turn the stud to the left for a smaller size and to the right for a larger size.
On the multiple magazine machines the font distinguisher is automatically changed when changing the position of the magazines.
Matrices must never be driven over the point of the distinguisher when they stop in the box, but should be pushed to the second elevator bar and the wrong font or the turned matrix removed. Driving a matrix over the font distinguisher not only damages the matrix, but it also often breaks the font distinguisher and causes serious damage to the box by throwing the various parts out of their proper alignment. When this happens it is almost impossible to get the box back into proper shape.
The matrix lift mechanism is composed of the matrix lift lever, the matrix lift cam lever, matrix lift spring, matrix lift cushion spring, matrix lift hinge pin, matrix lift cam roll, and the matrix lift.
This matrix lift is at the right end of the box and is held to the lift lever by a fulcrum screw and forced against the font distinguisher block by a small coil spring. The lift should set so the back of the shoulder aligns with the vertical face of the rails. If by any accident it is forced out of alignment to the left, the lift cannot engage the bottom of the matrices and lift them over the vertical face of the rails.