DE923112C - Device for the intermittent drive of transport rollers for tapes, in particular photographic layer carriers - Google Patents

Description

Device for the intermittent drive of transport rollers for Tapes, in particular photographic supports. The invention relates to a device for the intermittent drive of transport rollers for belts, especially for photographic ones Layer carrier, by means of a motor driving a transport roller via a shaft.

Facilities of this type are already known in which one with Teeth provided for engagement in the perforation of a film or transport roller -roll is connected to a grooved washer, against which with a number of grooves provided scope a resilient detent to fix the standstill position of the transport roller is pressed. The continuously running drive shaft acts on the transport roller or on the associated groove washer with the interposition of an elastic resilient intermediate member, with the spring action latching the rotary movement prevents the grooved washer until this is due to the elastically resilient intermediate member stored torque is strong enough to press the detent out of the groove. the Rotation of the grooved disk and thus the transport roller then takes place with the assistance the relaxing spring force of the intermediate member until the latch again in a Slot into place.

The previously known devices of this type have the disadvantage on that the transport feed only works imprecisely and insecurely. With a multiple Image changes within a second, such as when recording and filming Film playback equipment is required, as is well known, already have a minor effect Deviations in the individual intervals of the transport feed extremely disadvantageous the end. These disadvantages to eliminate, see the invention for Task set.

To solve the problem is known per se on the drive shaft Way attached a grooved washer, against which provided with a number of grooves Circumference under the action of a resilient means pressed the tip of a limb is, which is hereinafter also referred to as the engagement member. This engaging member is according to the invention briefly out of engagement with the by a pulse generator Groove can be moved out, wherein when the engagement member is moved out of engagement with the groove the drive motor is switched on at the same time and is switched on for so long remains until the tip of the engagement member is again under the action of the resilient Moved into an engaging groove by means. It is possible in this way, with very short and even weak impulses a perfect intermittent switching of the transport rollers ensure, which has a particularly beneficial effect that the same time on this Way the drive motor is switched on and off automatically. As such a source of inspiration In particular, electrical pulse generators come, for example the discharge of capacitors or resilient contact pulse generators, for example resilient exposure clock levers.

In a preferred embodiment of the invention, the engagement member is formed by the armature of an electromagnet, whose coil briefly -_- through the. Pulse generator is excitable. The discharge, for example of capacitors, can be passed directly to the coil of the electromagnet.

The subject of the invention is significantly further improved by that between the motor and the grooved washer an elastic coupling with a locking device is arranged, which prevents the engine from turning back relative to the clutch. When the transport roller is running, the kinetic energy of the motor makes the elastic Clutch tensioned in the direction of rotation by switching off the motor and stopping it the tension in the elastic coupling through the action of the transport rollers Locking device is maintained. If now again with delivery. of an impulse the engaging member is moved out of a groove in the grooved washer, suffices Tension still remaining in the flexible coupling, tim the motor shaft. and so that the grooved washer move a little further in the direction of rotation, whereby it is ensured that the motor remains switched on until the engaging member moved back into a groove in the grooved disc. This way it will be additional Improved the possibility of only very short and weak impulses for switching the To use transport device.

The locking device can be designed in various ways. This idea can be carried out in a particularly simple way by that the motor is designed as a self-locking electric gear motor, while there is no need to place a special locking device.

The subject matter of the invention also offers the possibility in a simple manner to change the size of the feed. For this purpose is next to the motor shaft the cam disk is a disk also referred to below as an adjusting disk arranged radially adjustable, which has the same radius as the one not with Grooved part of the grooved washer, the tip of the engaging member both engages via the cam disc as well as via the adjusting disc. So it's on this Way possible to cover one or the other groove of the cam disk and thus the To change the size of the feed of the transport rollers. By arranging several Adjusting disks can be very easy to modify will.

To further explain the subject matter of the invention, the figure shows a schematic representation of an embodiment, namely in a partially diagrammatic view an electric self-locking geared motor which drives a transport roller T from a shaft A , which together with a further transport roller T1 a photographic substrate, for example a film B, capable of conveying, which passes between the two rollers T and Ti. The roller T1 is resiliently pressed in a manner not shown in more detail against the roller 2 'and thus against the photographic substrate B: A grooved disk NS is attached to the shaft A and is provided with two grooves in the exemplary embodiment. The radius of the circumference between the two grooves is constant. A flat pin S, which is firmly connected to the armature A1 of an electromagnet MA, is pressed against the circumference of the groove disk NS by means of a spring F. The electromagnet can be briefly excited by means of a pulse generator I connected to the network. The movable part of a contact KO, with the aid of which the geared motor M can be connected to the mains, is also connected to the armature A1. An elastic coupling K is arranged between the grooved disk NS and the motor M. In addition, an adjusting disk SE is arranged on the shaft A next to the grooved washer NS in a radially adjustable manner, the circumference of which has the same radius as that part of the circumference of the grooved washer NS which is not grooved. The device works in the following way: The electric pulse coming from the pulse generator I excites the electric magnet MA, so that the armature A1 and thus the pin S are attracted. Because the pin moves out of the groove in the groove washer NS, it is released. At the same time, the contact KO is closed, whereby the motor M is set in rotation, which drives the transport roller T via the grooved disk NS and the elastic coupling K. Meanwhile, the tip of the pin S slides over the circumference of the groove washer until the spring F moves the tip of the pin into the next groove. This opens the contact KO and interrupts the power supply to the drive motor IVI. The transport roller T comes to a standstill, so that the tape B is no longer transported.

When the motor AI is stopped, the elastic coupling K becomes a moved a little further in the direction of rotation, and thereby in the clutch K stored voltage is sufficient to remove the disk during the next transport process NS move a little further in the direction of rotation as soon as the pin S touches the groove washer NS has released.

For example, to double the advance of the tape B, the Adjusting disk SE can be set in such a way that it has one of the two grooves of the groove disk NS covered. The pin S can then no longer fall into this groove, so that the Motor IIII only interrupted half as often, i.e. the feed is doubled. On similar ones Several adjusting disks can be arranged in order to feed on others Way to change.

Claims (1)

PATENT CLAIMS: e.g. Device for the intermittent drive of transport rollers for tapes, in particular photographic film supports, by means of a motor driving a transport roller via a shaft, characterized in that a disk (groove disk NS) is attached to the motor shaft, against its circumference provided with a number of grooves below the Effect of a resilient means (F) the tip of a member (engaging member) is pressed, which can be briefly moved out of engagement with the groove by a pulse generator (1), and that when this member is moved out of engagement with the groove, the drive motor ( M) is switched on and remains switched on until the tip of the engagement member (S) moves into a groove again under the action of the resilient means. a. Device according to Claim i, characterized in that the engagement member is formed by the armature (A1) of an E-magnet (MA), the coil of which can be briefly excited by the pulse generator (1). 3. Apparatus according to claim i and a, characterized in that between the motor (M) and the grooved washer (NS) an elastic coupling (K) is arranged with a locking device which prevents the motor from turning back relative to the coupling. q. Device according to Claim 3, characterized in that the motor (M) is designed as a self-locking electric gear motor. 5. Apparatus according to claim i to q., Characterized in that on the motor shaft next to the grooved disc (NS) an adjusting disc (SE) is arranged radially adjustable, which has the same radius as the non-grooved part of the circumference of the grooved disc ( NS), and that the tip of the engaging member (S) engages both over the grooved disk (NS) and the adjusting disk (SE). Referenced publications: German patent specification No. 376 Sao.