The present invention relates generally to printing presses and more particularly to a signature transport device for transporting printed products.
A web printing press, for example for newspapers, will print a continuous web of material. In a folder of the printing press, the web will be folded, if desired, and then cut, so that signatures result. The signatures can then be conveyed on a conveyor and transferred by a signature transfer device to another conveyor for further processing or delivery.
European Patent Application No. 0771 675 A1 discloses a device for removing signatures from a saddle conveyor supporting the signatures. The conveyor has cutouts that permit the signatures to be gripped from above by a rotating clamping device, which then further conveys the signatures to a belt conveyor.
U.S. Pat. No. 6,540,066 discloses a device for removing signatures from a saddle conveyor that moves the signatures over cutouts in a sword. Grippers grip the outside of the signature from above and transfer the signatures to a further conveying device.
U.S. Pat. No. 6,616,139 discloses a device for removing printed products from a sword having a rotatingly-driven gripping device with controlled gripping elements, control elements controlling the gripping elements, and a measuring device connected to the control elements to measure a thickness of the printed products. A pneumatic drive which does not rotate with the grippers adjusts a drive plate which has curve levers to adjust the control elements.
An object of the present invention is to permit efficient removal of signatures and transfer from a conveyor.
The present invention provides a device for removing folded signatures from a saddle-back conveyor comprising:
a moving arm;
a first gripper mounted on the moving arm; and
an electromechanical actuator connected to the first gripper for opening and closing the first gripper, the electromechanical actuator being mounted on the moving arm.
The actuator on the arm thus can be controlled using purely electronic controls, from for example, a PLC via a low-friction electrical slip-ring assembly. Mechanical interactions with cams, levers and/or purely mechanical control elements forcing the grippers to open or close can be eliminated, and thus friction and mechanical malfunctions can be reduced. By having the electromechanical actuator move with the arm gripper timing can be changed automatically to change gripper timing even within a single rotation or reciprocation of the arm. Gripper timing can be changed automatically with a machine speed increase or decrease, and products can be transferred at all machine speed ranges. No set-up is required for product changes. Clamp force on the products can remain constant through a full range of product thicknesses to prevent damage to the product or gripper. The gripper also can be controlled to inhibit the gripper on the fly without the need for a mechanical latch-out.
Preferably the arm is a rotating arm. Within a single rotation of the arm, the gripper can be opened or closed via electronic control signals, for example as function of the rotational angle. In addition, as the signature thickness increases or decreases, the actuator can be adjusted electronically as well to adjust the gripper to the signature thickness amount.
Preferably, the first gripper is mounted rotatably on the rotating arm and remains in a horizontal orientation relative to a spine of the signatures during a full rotation of the rotating arm. Preferably, a second gripper similar to the first gripper is located on the rotating arm opposite the first gripper.
The first gripper may have a first gripper part and a second gripper part movable with respect to the first gripper part for gripping the signature. The electromechanical actuator preferably includes a pneumatic cylinder with a linkage connected to the second gripper part for moving the second gripper part.
The first gripper may be mounted on the rotating arm at a first axis, and the pneumatic cylinder preferably is fed air via an air conduit entering the pneumatic cylinder at the first axis and being rotatable with respect to the pneumatic cylinder and fixed with respect to the rotating arm. Solenoid control valves fixed to the rotating arm can feed air to each pneumatic cylinder, allowing each gripper to be controlled independently. The PLC can control the solenoid control valves via the electronic slip ring.
The gripping time and/or force for each gripper thus can be set accurately and at any time during the movement of the arm via the electronic controls.
The present invention provides a device for removing folded signatures from a saddle-back conveyor comprising:
a moving arm moving in a reciprocating or rotational movement;
a first gripper mounted on the moving arm;
an electromechanical actuator connected to the first gripper for opening and closing the first gripper, the electromechanical actuator being mounted on the moving arm; and
a controller for providing electronic signals so as to direct the electromechanical actuator to open or close the first gripper during the reciprocating or rotational movement.
The present invention also provides a method for removing signatures from a saddle-back conveyor comprising the steps of:
reciprocating or rotating an arm to move a gripper to remove signatures from a saddle-back conveyor, the arm defining a range of motion; and
providing electronic controls to open and close the gripper to grip the signature during the range of motion.
As opposed to cam-operated opening and closing methods, the present invention uses electronic controls to open and close the gripper on the signature, which can reduce friction and provide more accurate gripper control.
The method may further include adjusting a closing distance as a function of the signature thickness.
A saddle-back conveyor as defined herein includes any conveyor on which the signature conveyed straddling a chain or belt.
The following figures show a preferred embodiment of the present invention in which:
The signatures may be lifted from the conveyor by a signature lifting device passing between, for example, two chains of the conveyor and lifting the signature from below at the fold. Alternately, the signatures may be lifted directly from conveyor 100 or from a sword.
Signature transport device 30 can then lift the signatures using grippers 22, 24 rotatingly mounted on a rotating arm 20 driven by a drive shaft 16, which rotates in a direction D. Grippers 22 and 24 rotate with respect to arm 20 so as to maintain a similar orientation, i.e. so that the gripper edge remains parallel to a fold F of signature 10 or a direction of movement of conveyor 100. Thus as signature 10 is lifted, one of the grippers 22, 24 grips the fold F from the outside and transports the signature upwardly.
The grippers 22, 24 are rotatable in the arm via gripper housing shafts 26, 28, respectively. In the center of each housing shaft 26, 28 is a pneumatic cylinder 36, 31, as shown in
Cylinder 36 may, for example, be spring-loaded to open against the pressure of air being provided via line 46 so as to accurately set the axial position of plunger 39, and thus the gripper opening distance.
A belt 40 runs over a pulley 42 and a stationary pulley 66 (
As shown in
The amount of air supplied via the solenoid control valves 52, 54 thus can set the opening or closing position. The solenoid control valves 52, 54 in turn are controlled electronically via controls from a controller 60, which for example is a control processing unit or programmable logic controller. As shown in
As shown schematically in
The closing distance of the gripper for gripping the printed product may be a function of the type of material of signature 10 as well as the thickness.
Other electromechanical actuators may include actuators such as direct solenoid driven cylinders or hydraulic actuators.
“Signature” as defined herein can include single sheet or multi-sheet printed product. “Arm” as defined herein is any rotating support structure.