A pallet carrying apparatus includes: a first pallet rail; a second pallet rail provided parallel to the first pallet rail; a first pallet feeding mechanism including a first endless belt on which convex portions and concave portions each extending in a belt width direction are formed; a second pallet feeding mechanism including a second endless belt on which convex portions and concave portions each extending in a belt width direction are formed; and a pallet moving mechanism configured to move a pallet. The first and second endless belt are provided in the vertical direction. Concavo-convex portions included in the pallet engage with the convex portions and the concave portions of the first and second endless belts.

A pallet carrying apparatus includes: a first pallet rail; a second pallet rail provided parallel to the first pallet rail; a first pallet feeding mechanism including a first endless belt on which convex portions and concave portions each extending in a belt width direction are formed; a second pallet feeding mechanism including a second endless belt on which convex portions and concave portions each extending in a belt width direction are formed; and a pallet moving mechanism configured to move a pallet. The first and second endless belt are provided in the vertical direction. Concavo-convex portions included in the pallet engage with the convex portions and the concave portions of the first and second endless belts.

A machining system including a first body with a first channel to receive a first stream of compressed air, a second channel to receive a second stream of compressed air, an upper compartment, the first stream of compressed air configured to clear debris from an upper compartment surface and a lower compartment surface when the first stream of compressed air is engaged, the upper compartment configured to shift to a position where the upper compartment abuts the lower compartment and conceals the upper compartment surface and the lower compartment surface when the second stream of compressed air is engaged, and the lower compartment configured to shift when in contact with the upper compartment.

A linear dividing indexer has an upper table which moves transversely linear relative to a base. The upper table defines a slot disposed at an angle with the transverse direction of movement and includes an indexing mechanism formed from (a) an angle bar pivotally mounted to the base and an actuator bar slidably mounted in the angle bar, the actuating bar having a cam follower which slides within the upper table slot; and (b) wherein when the angle bar is at an angle to the slot, linear movement of the actuating bar within the angle bar causes transverse linear movement of upper table relative to the base.

A linear dividing indexer has an upper table which moves transversely linear relative to a base. The upper table defines a slot disposed at an angle with the transverse direction of movement and includes an indexing mechanism formed from (a) an angle bar pivotally mounted to the base and an actuator bar slidably mounted in the angle bar, the actuating bar having a cam follower which slides within the upper table slot; and (b) wherein when the angle bar is at an angle to the slot, linear movement of the actuating bar within the angle bar causes transverse linear movement of upper table relative to the base.

An in-line indexing mechanism as part of a work-stop system which employs a lead screw to alter the relative distance between a work-stop plate and a swing armas well as alignment pins and springs to maintain contact and rigidity between this work-stop plate and swing armin order to precisely alter the parameters of a workpiece plane. In particular, the indexing mechanism of the preferred embodiment resides within the extension of an arm, and is located, by default, within the workpiece plane; the act of indexing therefore exerts force upon a workpiece along a coincident axis within said workpiece plane. Additionally, the indexing mechanism may be removed from the workpiece plane, by way of axially rotating the arm, without abandoning the original workpiece parameter and adjustment values.

An in-line indexing mechanism as part of a work-stop system which employs a lead screw to alter the relative distance between a work-stop plate and a swing armas well as alignment pins and springs to maintain contact and rigidity between this work-stop plate and swing armin order to precisely alter the parameters of a workpiece plane. In particular, the indexing mechanism of the preferred embodiment resides within the extension of an arm, and is located, by default, within the workpiece plane; the act of indexing therefore exerts force upon a workpiece along a coincident axis within said workpiece plane. Additionally, the indexing mechanism may be removed from the workpiece plane, by way of axially rotating the arm, without abandoning the original workpiece parameter and adjustment values.