The invention relates to a device for detecting double sheets in an appa¬ ratus for separating a sheet film from a sheet-film stack, preferably a stack contained in a supply magazine, with a suction device which for releasing the film to be removed bends the front area of the film, which is engaged by the suction device, with respect to the sheet -film plane.

In a device of this type which is known from DE-OS 37 05 851, a sheet- film loaded in a supply magazine is engaged in its front section by suction elements and separated from the underlying sheet-film stack in that the suction elements are tilted. Subsequently the sheet film is removed from the supply magazine by the pivotally guided suction elements and moved through a light barrier which is arranged in its path of movement and detects whether or not more than one sheet film was attracted. If the Ught barrier detects that there is more than one sheet film the removal operation is interrupted by a control device, the direction of pivotal movement of the suction elements is reversed and the sheet films are returned to, and deposited in the supply magazine. By completely repeat¬ ing the removal operation several removal attempts are made in order to release the second sheet film adhering to the first by repeatedly tilting the suction elements. During the repeated removal attempts by which the " sheet film is to be released in this known device the sheet film is affected fh in an undesired manner by the relative movement between the sheet film

*> to be removed and the supply stack as well as by the friction occuring at the guide means .

It is the object of the invention to provide a device of the generic type such that double sheet films are detected without the film being damaged.

In accordance with the invention this object is attained in that a thickness sensor is moved into the bent-off area of the sheet film while said film is still located on the sheet-film stack.

According to an advantageous modification of the invention the thickness sensor consists of a first lever which can be pivoted jointly with the suc¬ tion device and on which a second lever is pivotally mounted which actu¬ ates a switch, rollers sensing the upper and the lower face respectively of the sheet film being rotatably mounted on said levers.

Advantageously pivotal movement of the levers of the thickness sensor is limited to a range between a sensing position and an initial position, with the initial position being defined by an abutment which can be electro- magnetically operated and which releases the thickness sensor to assume its sensing position.

Preferably the thickness sensor is returned to its initial position in that it is positively engaged, and taken along by the suction device.

Thanks to the design and arrangement of the thickness sensor in accord¬ ance with the invention, it is detected even prior to the removal of a sheet film from the sheet-film stack whether a second sheet film adheres to the first sheet film so that the sheet film is initially not withdrawn from the sheet film stack in such a case. Only when the thickness sensor has detected that a single sheet film has been properly engaged is the actual film removal operation initiated so that the sheet film is only transported when it has been separated in a functionally correct manner and in this way is protected from damage.

Further features and advantages can be inferred from an embodiment of the invention illustrated in the drawing, and from the sub claims. The draw¬ ing shows schematically in

Fig. 1 a lateral view of the device in its initial position;

Fig. 2 a view of the device according to Fig. 1 in its sensing posi¬ tion, and

Fig. 3 an oblique view of details of the device according to Fig. 1.

The invention is described in connection with a device for removing sheet films 3a from a sheet-film supply magazine 1, said device having a suction plate 21 with a plurality of suction elements 6.

Such a device is known for example from an apparatus for loading sheet film into a sheet-film magazine which has been disclosed in DE 37 05 851, claim 1.

The description of the invention is confined to its most essential features .

The supply magazine 1 which can be closed in a light-tight manner by a lid 2 hinged to it for pivotal movement in the direction of the arrows "A" houses a sheet -film stack 3.

The device for separating and removing the sheet films substantially con¬ sists of a mounting arm 4 on which an outrigger 5 is mounted at whose end a suction plate 21 with a plurality of suction elements 6 is pivotally mounted.

The thickness sensor for detecting double sheet films substantially com¬ prises two sensing levers 10 and 11 having rollers 15 and 17 and being pivotable relative to each other, one sensing lever 11, 11a being adapted to operate a switch 19.

The mounting arm 4 and the sensing lever 10 which hereinafter is referred to as forward sensing lever 10, are movable relative to each other and mounted for pivotal movement in the direction of the arrows "C" about a joint motor shaft 9 of an electric motor not illustrated. Motor shaft

9 is mounted to a vertically movable guide portion 22 schematically illu¬ strated in Figs. 1 and 2 and driven by the motor to move along a guide column 23 in the directions of the arrows "D" .

Two outriggers 5 arranged at a distance from, and parallel with each other (of which only the forward outrigger 5 is visible) are mounted on the mounting arm 4, and the suction plate 21 with its suction elements 6 and air jets not illustrated is disposed for pivotal movement about a jour¬ nal 7 between the ends of said outriggers which extend into the open supply magazine 1. Suction plate 21 is held in engagement with an eleetro- magnetically operated cable line 8 which can pivot the suction bar 21, which is spring-biased into the inclined position illustrated, into a position in which it is aligned in parallel with the sheet-film plane (shown in dash- dotted lines in Fig. 1) .

The forward outrigger 5 comprises an arm 5a with a bent-off projection 5b which according to Fig. 2 serves as an abutment for the forward sensing lever 10 when said lever is in its sensing position. The forward sensing lever 10 is mounted for free rotation about a bushing 14 on motor shaft 9 and is biased counterclockwise by a rotary spring not illustrated. At the free end of forward sensing lever 10, a roller 15 is mounted for rotation about a journal 16, and the two-armed rear sensing lever 11 is pivotally mounted adjacent thereto about a journal 12, also see Fig. 3. The two sensing levers 10 and 11 are mounted in an area of the motor shaft 9 adjacent to suction device 4, 5, 6, 21 such that they are able to sense the smallest film size possible.

A roller 17 which is arranged opposite to roller 15 of the forward sensing lever 10 is mounted for rotary movement about a journal 18 on a first arm 11a of rear sensing lever 11. The rear sensing lever 11 is biased by a tension spring 13 which is hooked to a bent off portion 10a of the forward sensing lever 10 and engages a second arm lib of the rear sensing lever 11 such that roller 17 is urged into contact with roller 15 by slight pressure.

A switch 19 secured to the forward sensing lever 10 is operated by the second arm lib of the rear sensing lever 11 as soon as the distance between the two rollers 15, 17 exceeds a predetermined value, i. e. the thickness of a single sheet film. In the area between tension spring 13 and switch 19, the second arm lib of the rear sensing lever 11 is posi¬ tively guided in a recess 10c of the forward sensing lever 10 by means of a bolt 12 and a washer 24.

The initial position of the thickness sensor - sensing lever 10,11 - is determined by an abutment 20 which extends into the path of movement of the forward sensing lever 10. The abutment 20 which can be electromagne- tically operated is located in a plane in front of the sensing levers 10 and 11. Its position is shown in dash-dotted lines in Figs. 1 and 2. The abut¬ ment 20 extends permanently into the path of movement of the forward sensing lever 10 and is only temporarily moved electromagnetically in opposition to the force of a spring for releasing said sensing lever. In order that the released sensing lever 10 can return from its sensing posi¬ tion according to Fig. 2 to its initial position according to Fig. 1, a diver¬ ting member 10b in the form of an inclined surface is molded to sensing lever 10 as can be seen in particular in Fig. 3. When sensing lever 10 pivots back to its initial position its diverting member 10b urges the abut¬ ment 20 aside in opposition to the spring force so that sensing lever 10 can pass . When the initial position according to Fig. 1 has been reached the abutment 20 is once again spring-biased to its position in front of sensing lever 10 (see Fig. 1) .

The device functions as follows:

Mounting arm 4 is located in an initial position not illustrated in which suction plate 21 is outside the supply magazine 1. By vertical displacement of guide portion 22 along guide column 23 the device is shifted in the direction of the arrows "D" until the suction plate 21 is placed opposite to a selected, open supply magazine 1. When mounting arm 4 is pivoted coun¬ terclockwise the suction plate 21 is pivoted into the supply magazine 1 and placed in the position illustrated in Fig. 1 in which the sensing levers 10 and 11 are in their retracted initial positions illustrated in Fig. 1.

When the suction plate 21 has entered the supply magazine 1 it is aligned by cable line 8 in the position shown in dash-dotted lines in Fig. 1. Sub¬ sequently the suction plate 21 is moved onto the uppermost sheet film of the sheet-film stack 3 in that the total device is lowered along guide column 23.

When the suction elements 6 are in their lowered position they are subjec¬ ted to a vacuum so that they attract a sheet film 3a. Subsequently the cable line 8 is relieved so that suction plate 21 is pivoted to its tilted position shown in Fig. 1 by the spring force acting on it. As a result of the pivotal movement of suction plate 21 the front area of sheet film 3a attracted is bent in the manner shown in Fig. 1- and in this way released from the underlying sheet film stack 3. This release operation is enhanced by the action of air blown onto the front edge of the sheet film 3a. Now suction plate 21 remains for the time being in this stand-by position.

Prior to the released sheet film 3a being removed from supply magazine 1, it is checked in this stand-by position whether a single sheet film has been properly released. For this purpose the sensing levers 10 and 11 are released in that abutment 20 is electromagnetically retracted. The forward sensing lever 10, which under the action of its rotary spring is pivoted counterclockwise together with the rear sensing lever 11 hinged to it, is thus brought into the sensing position shown in Fig. 2.

During this pivotal movement of the sensing levers 10 and 11 the area of sheet film 3a which has been bent by the suction plate 21 is moved bet¬ ween the rollers 15 and 17 of the sensing levers 10 and 11. The rollers 15, 17 are urged apart whereby the rear sensing lever 11 is pivoted coun¬ terclockwise in opposition to the action of tension spring 13, and the posi¬ tion of its actuating arm lib relative to the forward sensing lever 10 is changed.

If no more than one sheet film 3a is located between the rollers 15, 17 and the arrangement functions as intended .this pivotal movement is not great enough to actuate switch 19 by means of actuating arm lib of the rear sensing lever 11. In such a case the sheet film 3a is immediately removed

from the supply magazine 1 in that the mounting arm 4 leaving its stand¬ by position pivots clockwise. During such movement the forward sensing lever 10 and, via said lever, the rear sensing lever 11 hinged to it are also taken along via projection 5b of outrigger 5. During that pivotal movement suction plate 21 removes the attracted sheet film 3a from the supply magazine 1 and advances it to further guide means not illustrated which are connected with mounting arm 4. After the separated sheet film 3a has been completely removed from supply magazine 1 and is held on the guide means not illustrated the complete sheet-film removal device together with the thickness sensor 4, 5, 21, 10, 11 as well as the guide means not illustrated which hold the sheet film 3a are moved to a loading position not shown in that guide portion 22 is vertically shifted along guide column 23. In the loading position the direction of pivotal movement of mounting arm 4 is reversed and the separated sheet film 3a guided by suction plate 21, which pivots counterclockwise, along the guide means not illustrated and shifted into an open single-film magazine not illustrated. When the vacuum acting on suction plate 21 is switched off sheet film 3a drops into the single-film magazine, and the complete sheet-film removal device as well as the thickness sensor and the guide means return to an initial position opposite to a supply magazine 1.

If during bending of the sheet film 3a according to Fig. 2 a second sheet film adhering to the first sheet is bent off as well this is detected by the thickness sensor 10, 11, 15, 17, 19 still within the supply magazine 1. In such a case the rollers 15, 17 are urged further apart by the greater thickness of the bent sheet film section so that the actuating arm lib of the rear sensing lever 11 covers a greater pivotal path and thereby actu¬ ates switch 19. This triggers an interruption of the removal operation such that the vacuum on suction elements 6 is switched off and the com¬ plete sheet-film removal device 4, 5 , 21 is first lifted into its stand-by position and then pivoted out of the supply magazine 1 by clockwise rota¬ tion of the mounting arm 4.

When the vacuum is switched off the suction elements 6 release the sheet film 3a along with the second sheet film adhering to it so that the sheets can drop back onto sheet-film stack 3. The mounting arm 4 pivots the

whole sheet-film removal device 4, 5, 21 clockwise into a predetermined initial position and, rotating counter-clockwise, pivots it back into the position in the supply magazine 1 which is illustrated in Fig. 1 and in which the suction plate 21 is lowered onto the sheet-film stack 3 in a straight position (shown in dash-dotted lines) and is once again subjected to a vacuum. Subsequently another release operation is carried out as described in that the leading end of the film is bent and air blown in and another thickness measurement is carried out in the standby position in that the sensing levers 10 and 11 are released.

It is assumed that a sheet film adhering to another sheet film - or two further sheet films thus adhering - is released when it is returned onto the sheet-film stack 3, freshly bent and subjected to the air jet so that only a single sheet film 3a is now attracted by the suction plate 21 in a functionally proper manner.

Should a second thickness measurement reveal that two or more sheets once again adhere to each other the release operation is repeated up to three times. If after such repetition the sheets continue to adhere to each other a corresponding error signal is displayed on the apparatus.

In contrast to the embodiment described the thickness sensor can also be guided on suction device 4 and 5 so as to be εhiftable parallely with the bent section of the sheet film 3a (not illustrated) and otherwise designed analogously to the embodiment described.