Gripping unit and a method for gripping a paper

A gripping unit for gripping a paper from a top surface of a stack includes a first and a second friction wheel having rotation axes that are mainly parallel with respect to each other. The friction wheels are arranged to exert a friction force on sections of a paper. Further, the gripping unit comprises an actuator on which the first friction wheel is mounted for moving the first friction wheel towards the second friction wheel. The first friction wheel is arranged to rotate with respect to its axis during the movement towards the second friction wheel such that a paper section on which the first wheel exerts the friction force is forced into the direction of the second friction wheel.

CROSS REFERENCES TO RELATED APPLICATIONS

This application claims the priority benefit of EP 06076146.7 filed on Jun. 1, 2006.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH

Not Applicable.

BACKGROUND OF INVENTION

The invention relates to a gripping unit for gripping a paper from a top surface of a stack, comprising a first and a second friction wheel having rotation axes that are mainly parallel with respect to each other and being arranged to exert a friction force on sections of a paper, the gripping unit further comprising an actuator on which the first friction wheel is mounted for moving the first friction wheel towards the second friction wheel.

Such a gripping unit for griping a paper is e.g. known in the field of computer-to-plate imaging processes, wherein printing plates are picked up from a multiple plate stack. In the stack each printing plate is sandwiched between a paper sheet to avoid damages on the surface of the plates and to avoid interaction of the printing plates surfaces, which are regularly manufactured from aluminium. In the process of handling the printing plates, elements on the stack are sequentially removed, thus in an alternating way a printing plate and a paper sheet. The printing plates are e.g. handled for processing, e.g. by exposing radiation to the printing plate. The paper sheets are removed and deposited in a box.

To remove a paper which is located on a top surface of the stack, the known gripping unit is positioned above the paper, such that the first and second friction wheels exert a friction force on sections of the paper. Then the actuator of the gripping unit moves the first friction wheel from the initial position towards the second friction wheel, so that the paper between the two friction wheels is folding upwardly and subsequently pressed between vertically oriented contact portions of the friction wheels facing each other. The paper can then be removed from the stack.

However, due to limitations which are posed by other parts of the system, it is desired that the distance between both friction wheels in the initial position is reduced, thereby also reducing the distance that the paper is moved upwards during the folding and gripping operation. As a consequence, the chance that a paper is reliably gripped by the gripping unit diminishes.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a gripping unit according to the preamble, wherein the disadvantage identified above is reduced. In particular, the invention aims at obtaining a gripping unit wherein during the initial stage the first and the second friction wheels can be placed more close to each other, while the reliability of the unit remain at least the same. Thereto, according to an aspect of the invention, the first friction wheel is arranged to rotate with respect to its axis during the movement towards the second friction wheel, such that a paper section on which the first wheel exerts the friction force is forced into the direction of the second friction wheel.

By rotating the first friction wheel with respect to its axis during the movement of the first friction wheel into the direction of the second friction wheel, such that a paper section on which the first wheel exerts the friction force is forced into the direction of the second friction wheel, the paper more reliably folds and bends upwardly as the paper section below the first friction wheel is forced towards the paper section below the second friction wheel. Since the reliability of the gripping unit increases, the first and the second friction wheels can be placed more close to each other during the initial stage of the gripping process.

Since the gripping unit according to the invention functions more reliably, the chance that a specific paper sheet on top of the stack layer is removed in a controllable manner, increases, even if the sheet on the top surface of the stack is already folded or rotated.

Moreover, due to its improved gripping characteristics the gripping unit can be used to remove a paper in situations where a vertical working space is limited, e.g. in the case that a paper has to be removed, while a printing plate positioned right above the paper sheet is partially lifted for removal. Further, it is not necessary to move the gripping unit according to the invention towards the centre of the sheet to grip the paper, it might be sufficient to grip a paper near a border region of the paper.

By arranging the first friction wheel to rotate with respect to its axis during the movement towards the second friction wheel such, that a contact portion of the first friction wheel exerting the friction force on the paper section is substantially moving towards the second friction wheel, the effect is obtained that the paper is more easily folded upwardly as the amount of paper between the friction wheels increases. As a matter of fact, the folding phenomenon is not only caused by diminishing the mutual distance between the first and section friction wheels, but also by rotation of the first friction wheel. As a larger amount of paper is folded up, the initial distance between the first and second friction wheels can even further be reduced without reducing the reliability properties of the gripping unit.

In an advantageous embodiment according to the invention, the second friction wheel is arranged to rotate with respect to its axis during the movement of the first friction wheel such, that a contact portion of the second friction wheel exerting the friction force on a second paper section is substantially moving towards the first friction wheel. In this way, the amount of paper between the friction wheels is further enlarged, so that the paper is even more easily folded upwardly. However, it is also possible to arrange the second friction wheel such, that the wheel does not perform a rotation with respect to its axis during the gripping action, e.g. by exerting a friction force on the paper that is so large that the second friction wheel essentially does not rotate.

More advantageously, the rotation of the first friction wheel is driven by the actuator for moving the first friction wheel towards the second friction wheel. Thereby the movement of the first friction wheel towards the second friction wheel and the rotation of the friction wheel with respect to its axis might be performed by a single motor, thus reducing a motor equipment, costs and space in the gripping unit. Alternatively, the gripping unit is provided with a second actuator mechanism to drive the first friction wheel in a rotational way with respect to its axis.

In embodiment according to the invention, the first friction wheel is mounted on a first axle being provided with an additional friction wheel to improve the friction force exerted on the paper to be gripped. In a simpler implementation, the first friction wheel is not coupled to an additional friction wheel, either by absence of the additional friction wheel or by missing a common axle. However, it is also possible to implement one or a multiple number of additional friction wheels having axes that mainly coincide with the axis of the first friction wheel or that are mainly parallel with it. Optionally, the one or multiple number of additional friction wheels can be moved during the gripping action towards the second friction wheel and/or rotated such, that a paper section on which the first wheel exerts the friction force is forced into the direction of the second friction wheel.

In a similar way, the second friction wheel can be mounted on a second axle being provided with an additional friction wheel. Of course, similar variants as described with respect to the additional friction wheels of the first friction wheel, are possible.

Optionally, the gripping unit according to the invention further comprises an airflow generator for providing a flow of air between a paper being gripped and a surface below the paper, so that adhesion forces between the paper and the surface below the paper, e.g. a printing plate, are counteracted and the paper can be removed more easily from the surface below the paper. However, it is also possible to counteract the adhesion force otherwise, e.g. by removing the paper mechanically from the surface below the paper, e.g. by performing a translation between the paper and the said surface.

Moreover, the gripping unit according to the invention might further comprise an airflow generator for providing a flow of air between a paper to be gripped and a surface above the paper, so that adhesion forces between the paper and the surface above the paper, e.g. a printing plate, are counteracted and the paper can be removed more easily while the surface above the paper is also being removed. As described above, it is also possible to counteract the adhesion forces otherwise, e.g. mechanically by performing a translation between the paper and said surface.

In a further advantageous embodiment, the gripping unit according to the invention further comprises a guiding element for removing from the stack an element having a surface above the paper to be gripped. Thereby, actions performed by the gripping unit to remove a paper might advantageously cooperate with operations that are carried out to remove an element having a surface above the paper, such as a printing plate. One could however also implement different mechanisms for performing the above mentioned acts, so that mutual interaction is avoided.

Other advantageous embodiments according to the invention are described in the following claims.

The invention relates also to a method for gripping a paper.

The figures are merely schematic views of preferred embodiments according to the invention. In the figures, the same reference numbers refer to equal or corresponding parts.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

FIG. 1shows a schematic side view of gripping unit according to the invention in a first stage of a gripping process. The gripping unit1comprises a first friction wheel5and a second friction wheel2each having a rotation axis that coincides with a rotation axle7,4, respectively, of the respective friction wheel5,2. The rotation axes are mainly parallel with respect to each other. The first and second friction wheel5,2are arranged to exert a friction force on sections of a paper below the wheels5,2as is described below.

The gripping unit1further comprising an actuator12on which the first friction wheel5is mounted for moving the first friction wheel5towards the second friction wheel2. In addition, the first friction wheel5is arranged to rotate with respect to its axis during the movement towards the second friction wheel2such that a paper section20on which the first wheel exerts the friction force is forced into the direction of the second friction wheel5.

To that end the rotation of the first friction wheel5is caused by the actuator12for moving the first friction wheel5towards the second friction wheel2. In particular, the first friction wheel5is driven by a tooth wheel transmission. Obviously, other transmission systems could also be applied, such as a belt transmission. The first friction wheel5is fixedly provided with a gear wheel13cooperating with a gear rack14that is fixed with respect to the axle4of the second friction wheel2.

In the first stage of the gripping process, the gripping unit1is positioned above a stack comprising printing plates21that are sandwiched between individual paper sheets20. The top surface of the stack is formed by a paper sheet20that is to be removed by the paper gripper1.

During a second stage of the gripping process, the gripping unit1is pushed in a downward direction25against the paper20to exert friction forces on paper sections by means of the first and second friction wheel5,2. This second stage is shown inFIG. 2.

In a third stage of the gripping process, shown inFIG. 3, the first friction wheel5, upon activation of the actuator12, is moving in a direction23towards the second friction wheel2, while rotating the first friction wheel5in a clockwise direction22. The movement of the first friction wheel5forms substantially a translation. The rotation of the first friction wheel5is such, that a contact portion of the first friction wheel5exerting the friction force on the paper section is substantially moving towards the second friction wheel2. The rotation of the wheel5is forced by the translation of the first friction wheel5and the gear transmission comprising the gear wheel13and the gear rack14. By the actions of the first friction wheel5, the paper20folds and extends upwardly between the first and second friction wheels5,2.

It is noted that the movement of the first friction wheel5caused by the actuator12can also be non-planar, e.g. curved. Further, the actuator12might be designed such, that the first friction wheel5follows the top surface of the stack.

During a fourth stage of the gripping process, shown inFIG. 4, the first friction wheel5abuts against the second friction wheel2, thereby clamping the curved paper20between them.

In a fifth stage of the gripping process the gripping unit1is moving in an upward direction24, away from the stack to drop the paper20adjacent the stack. The printing plate21then forms the top surface of the stack.

It is noted that the first friction wheel can also be arranged to rotate during the movement towards the second friction wheel such, that a contact portion of the first friction wheel exerting the friction force on the paper section is substantially moving away from the second friction wheel, in other words performing a counter clockwise rotation. In this way, the distance of the paper between the friction wheels increases. However, the friction force that is exerted by the first friction wheel5on the paper20can also increase. As a result, the gripping unit1may obtain an improved reliability. This is especially the case if the initial distance between the friction wheels5,2is relatively large.

The second friction wheel2is not motor driven, but is freely rotatable with respect to its axis that coincides with the axle4, on which the second friction wheel2is mounted. Since the second friction wheel2is freely rotatable, wear of the wheel2is evenly distributed over the entire circumferential surface of the wheel2. In a preferred embodiment, the second friction wheel2is allowed to rotate in one direction only to more evenly distribute the wear over its entire circumferential surface.

FIGS. 6-8show schematic perspective views of the gripping unit1in more detail respectively from below, a first side and a second side. On the axle7of the first friction wheel5an additional friction wheel6is mounted to form a first pair of friction wheels5,6and to enhance the grip on the paper20below the wheels5,6. Similarly, the second friction wheel2forms a second pair of second friction wheels2,3with an additional friction wheel3that is mounted on the axle4which also carries the second friction wheel2. As a consequence, a stable grip on the paper20can be obtained.

The axle4of the second pair of friction wheels5,6is at its first and second end rotatably mounted on ends of a first and second arm8,9that extend substantially parallel and are mounted to form a frame carrying the gripping unit1. Further, the axle4carries between the second pair of wheels2,3a block on which a gear rack14is mounted that extends substantially parallel with the first and second arm8,9in the direction of the first pair of friction wheels5,6. The gear rack14engages with the gear wheel13on the axle7carrying the first pair of friction wheels5,6.

The axle7of the first pair of friction wheels5,6is carried by a carrier unit10that is connected to the actuator12. The actuator12is fixed to an end of both arms8,9and comprises an electrical motor to drive a movable connection11with the carrier unit10. In the embodiment shown inFIGS. 6-8the movable connection11is implemented as a pair of hydraulic cylinders. Obviously, also other type of actuators could be applied, such as a pair of air cylinders or a single movable cylinder.

As particularly shown inFIG. 8, the gripping unit1is further provided with an air flow generator17for providing a flow of air31between a paper20to be gripped and a surface above the paper20. By activating the air flow generator the paper20can more easily be removed from e.g. a printing plate33being located above the paper20, being partly withdrawn from the stack by some mechanism and having the surface above the paper20.

In addition, the gripping unit1is provided with an air flow generator16for providing a flow of air30between a paper20to be gripped and a surface below the paper20, thereby facilitating the removal of the paper20being gripped from the surface below the paper20that e.g. belongs to the printing plate21.

It is noted that the top surface of the first and second arm8,9form a guiding element for removing from the stack an element having a surface above the paper to be gripped. Further, the gripping unit1as a whole is rotatable with respect to an axis near the actuator12and substantially parallel with the axles4,7of the pair of friction wheels2,3,5,6.

The invention is not restricted to the embodiments described herein. It will be understood that many variants are possible.

As shown inFIGS. 6-8, each friction wheel2,3,5,6is provided with a friction tire18that is arranged such that a relatively large frictional force can be applied to the paper20below the wheels. Thereto the friction tires18have elastic properties. In stead of applying the friction tires, other means could be applied to enhance the friction force to be exerted, e.g. elastic portions on the circumferential surface of one or more of the friction wheels2,3,5,6.

Other such variants will be obvious for the person skilled in the art and are considered to lie within the scope of the invention as formulated in the following claims.