DE1291999B - Switching device - Google Patents

Description

The invention relates to a switching device for on and off Switching off the drive motor of a serving for conveying and treating sheets Device with a. Switch and one for the actuation of the same serving pivotable stored sensor, which is in its rest position in the path of the device passing sheet extends and by contact with the passing Blade against a restoring torque from the rest position to a working position is pivotable.

A switching device of this type is for throughfeed machines for manufacture of photocopies or reproductions known; - in which the original together with a photosensitive support through a slot-shaped insertion opening is introduced and exits the flow-through device through an outlet slot. Since the Drive motor should be switched on as soon as the sheet enters the throughfeed device is introduced, and should not be switched off until the sheet passes through the device has left, are close to the insertion slot in the known switching device and one sensor each is provided just behind the outlet slot. These antennae form Parts of contacts that are kept open by the passing sheet, whereby then the switch that switches the motor is turned on. This through the feelers formed contacts are connected in series in the known device, so that the motor is only switched off when the two sensors Contacts are closed. Condition for a correct one. Functioning of this well-known However, the device is that the sheet as it passes through the device at least touches a feeler. For short sheets that are shorter than the distance between the two feelers, however, the condition occurs while a sheet is passing through one that both sensors are released from the sheet and thereby switched off the drive motor so that the sheet then gets stuck in the pass-through device. In a disadvantageous way is therefore the known switching device for very special purposes in which the minimum length of the sheets intended for passage is precisely specified, suitable.

Another disadvantage of the known device is that the drive motor is always switched off at the time - when the The trailing edge of the sheet just comes out of contact with the second feeler, d. H. has just left the conveyor belt. The known device is -therefore also for this reason only applicable to a limited extent. When it comes down to the The motor continues to operate for a while after the blade has left the device remains, for example, cooling fan or the like. even after the end of the photographic process keep it running for a period of time, which is sometimes required then the known switching device is unusable.

The invention is based on the object of a switching device create in which the disadvantages mentioned above are avoided and are simple and can be produced cheaply.

According to the invention, this object is achieved in that as a sensor a rotatable and axially displaceable shaft is provided, the substantially is arranged transversely to the path of movement of the sheet and parallel to the same and to pivot the shaft into the working position one for cooperation with the sheet provided button part has that for switching the switch, the axial Displacement movement of the shaft is used so that a restoring element engages this, which brings the shaft into such an axial position in which the switch is switched on is, and that a continuously driven by the drive motor screw conveyor is provided is with which one arm of the shaft is caused by the pivoting movement generated by the restoring torque the same engages back from the working position to the rest position, so that the shaft against the action of the Rückstelleleiüents gradually the axial Experienced shifting movement in the position in which the switch is switched off. As a result, a switching device is created in a surprisingly simple manner which only a single sensor is required to switch the motor on and with switch off again after any delay. The length of the delay time, which elapses until the switch-off takes place after the sheet has already hit the feeler has left, depends on the subject matter of how long to generate the sliding movement of the shaft provided screw required to move the shaft in to move the switch-off axial position. The moving speed can easily be chosen in such a way that the sheet has been using the Has left the device when it is switched off. Without having to comply with any Any restrictions need to be imposed on minimum sheet length, it is when Subject matter of the invention with certainty excluded that a shutdown of the engine has already taken place while the sheet is still in the device.

In an advantageous embodiment, the restoring element is both for generating the axially acting restoring force for the shaft as well as for generating of the restoring torque provided for the same one spring. It can for example a coil spring encompassing the shaft be provided, which at the same time acts as a tension and torsion spring acts.

The invention is illustrated below with reference to one in the drawing Embodiment explained in detail. It shows F i-g.1 one in the web direction of a sheet to be treated, schematically simplified view of a die delayed elimination causing part of the embodiment immediately before inserting the sheet to be treated, FIG. 2 is a side view of the in F i g. 1 shown part, F i g. 3 a view corresponding to FIG. 1 directly after inserting the sheet to be treated, FIG. 4 one of the F i g. 2 corresponding, to the F i g. 3 belonging side view, F i g. 5 a f i g. 1 and 3 corresponding View immediately after the - action of the leaf to be treated on the the part of the device shown has ceased, FIG. 6 a FIG. 2 and 4 corresponding to FIG. 5 belonging side view.

In a frame 1, a shaft 2 is axially displaceable and rotatable by means of bearings 3. The shaft 2 has an arm 4 which engages with a worm 5 and a projection 6 which engages in the insertion opening 7 of the device when the arm 4 and the worm 5 are in engagement. A coil spring 8 comprising the shaft 2 is connected at its one end to the shaft 2 and is supported at its other end in the frame 1, so that it is on the shaft 2 at the same time a torque pressing the arm 4 against the worm 5 and a torque Shaft 2 causes pressing force axially in the direction of arrow A. The displacement caused by this axial force is limited by a stop 9 fastened to the shaft 2 when it reaches the frame 1.

A microswitch 10, which does not have the motor, in the drawing shown drive for the screw 5 and other parts of the device switches, is arranged so that it is actuated by the stop 9 of the shaft 2 when the Shaft is shifted axially accordingly.

The mode of action of the one shown in the drawing, the delayed Disconnection causing part of the device consists of the following: Initially located the mechanism is in the position shown in FIGS. 1 and 2, in which the motor drive of the device is switched off.

When a sheet-like material 11 (which may include one or more sheets) is inserted into the insertion opening 7, the projection 6 in FIG. 1 pushed back so that the shaft 2 against the restoring torque of the spring 8 from the in F i g. 2 into the position shown in FIG. 4 position shown is rotated. As a result, the end of the arm 4 is moved out of engagement with the worm 5, with the result that the spring 8 displaces the shaft 2 axially in the direction of the arrow A until the stop 9 reaches the frame 1. This shift actuates the microswitch 10, which switches on the motor drive, which results in a rotation of the screw 5, as indicated by the arrows in FIGS. 4 and 6 is shown. The mechanism is now in the position shown in FIGS. 3 and 4 and remains in this position until the rear edge of the sheet material 11 has passed the projection 6. When this has happened, the spring 8 rotates the shaft 2 back into its initial angular position, so that the mechanism is in the position shown in FIGS. 5 and 6 is the position shown. As soon as the arm 4 comes into engagement with the worm 5 again, the shaft 2 is displaced in the direction of arrow B, the spring 8 being compressed again until the stop 9 actuates the microswitch 10 and thus switches off the motor drive of the worm. The mechanism is then in the position shown in FIGS. 1 and 2 position shown. This delayed switching off of the motor drive after the material 11 has passed the projection 6 is dependent on the speed and the pitch of the screw 5 and the distance by which the shaft 2 must be moved to operate the switch.

In the present embodiment, the projection 6 is as one Offset of the shaft 2 is formed. But this lead can also be achieved by a the shaft 2 connected switching arm be formed. In the present embodiment illustrated microswitch 10 for controlling the motor drive of the device can be replaced by another switching element.

Claims (3)

Claims: 1. Switching device for switching on and off the Drive motor of a device serving for conveying and treating sheets a switch and a pivoted switch that is used to actuate the same Sensor which, in its rest position, is in the path of the device passing through Leaf extends and through. the contact with the passing sheet against one The restoring torque can be pivoted from the rest position into a working position, characterized in that the sensor is a rotatable and axially displaceable shaft (2) is provided, which is essentially transverse to the path of movement of the sheet (11) and is arranged parallel to the same and for pivoting the shaft (2) in the Working position a button part provided for cooperation with the sheet (11) (6) has that for switching the switch (10) the axial displacement movement the shaft (2) is used that a restoring element (8) engages on this, which the shaft (2) brings into such an axial position in which the switch (10) is switched on is, and that a continuously driven by the drive motor screw conveyor (5) is provided is with which an arm (4) of the shaft (2) is generated by the restoring torque Swivel movement of the same from the working position to the rest position back in Comes into engagement so that the shaft (2) counteracts the action of the restoring element (8) gradually experiences the axial displacement movement into the position in which the switch (10) is switched off. 2. Device according to claim 1, characterized in that that as a restoring element both for generating the axially acting restoring force for the shaft (2) as well as for generating the restoring torque for the same one Spring (8) is provided. 3. Device according to claim 2, characterized in that that the arm (4) is arranged at one end and a stop (9) at the other end of the shaft (2) are that the stop (9) the displacement movement caused by the spring (8) in limits the axial position in which the switch (10) is switched on, and that the stop (9) to interact with the switch (10) after through the worm (5) caused displacement movement of the shaft (2) is used.