SU953664A1 - Device for switching magnetic tape speed - Google Patents

Description

The invention relates to the technique of magnetic recording, namely, to devices for switching the speed of movement of the magnetic tape.

A drive device for a turntable is known that switches the turntable to a different speed and contains a step pulley, belt, guide fork and control unit fl).

The closest to the invention in terms of technical essence and the achieved result is a switching mechanism containing a step nozzle and a flywheel connecting their belt and lever with a fork coupled to the branch of the belt running on the nozzle [2].

The disadvantage of this device is the low reliability of the mechanism when using step pulleys with significant differences in working diameters and the complexity due to the presence of the node q control.

The purpose of the invention is to increase the reliability of belt switching.

To this end, in a device containing step nozzles and a flywheel connecting their belt and a lever with a fork located on it in front of the step nozzle, paired with a branch of the belt running on the nozzle, the lever is equipped with an additional fork located in front of the flywheel and paired with a branch of the belt branch while the nozzle is equipped with diametrically spaced pins installed between the working grooves parallel to one another and non-orthogonal to the axis of the nozzle.

In addition, the flywheel has profiled grooves between the working grooves, the plane of which is made with the rise in the direction opposite to the direction of rotation of the flywheel.

In FIG. 1 shows a device without a flywheel, general view; in FIG. 2 - nozzle; in Fig · 3 - step flywheel; in FIG. 4 - profile of the guide groove; in FIG. 5 - flywheel, top view.

The device comprises a lever 1 pivotally connected to a lever 2 having a fixed axis of rotation 3. The lever 2 5 can interact through the screw 4 with the lever 5, the axis of rotation of which is made in the form of pins 6 entering the holes of the uprights 7. In the initial state, the lever 5 is pressed against the base of the device 10 by the spring 8. In addition, the lever 5 has two forks 9 and 10. The fork 9 is located in the immediate vicinity of the step nozzle 11 and captures the branch of the drive belt 15 that runs on the nozzle 11. The fork 10 is located in the immediate vicinity of the flywheel (not shown in FIG. 1) and captures the branch of the belt that escapes from the nozzle. In the body of the step nozzle 11, there are diametrically ₂ q pins 12 and 13 (Fig. 2), which are directed parallel to each other and at an angle to its axis. The flywheel (Figs. 3-5) is made with several guide grooves 14, the longitudinal plane of each of ₂ 5 of which is made with the rise in the direction opposite to the direction of rotation of the flywheel.

The device operates as follows.

When switching the speed of the belt from a smaller to a large lever 1 will shift in direction A, turn lever 2, which will press through, screw 4 on lever 5. The latter will turn on pins 6, as a result of which the forks 9 and 10 will raise the branches of the belt. In this case, the pin 12 will transfer the branch of the belt from the lower stage of the nozzle to the upper. The profiled grooves 14 on the flywheel will facilitate the unhindered transition of the belt to another step of the flywheel. When switching the speed of the belt from a larger to a smaller released lever 5 under the action of a spring, 8 puts the forks 9 and 10 into the initial position. In this case, the pin 13 will drop the belt down onto the groove of the smaller diameter of the nozzle 11.

The use of the invention will provide more reliable switching of the speed of the magnetic tape in the tape drive, the execution of the belt drive with significant differences in the diameters of the step nozzle and the flywheel.

Claims (2)

395 of FIG. 4 - profile of the guide groove; in fig. 5 - flywheel, top view. The device contains a lever 1, a hinge but connected to a lever 2 having a fixed axis of rotation 3. The lever 2 can communicate through a screw 4 with the lever 5, the axis of rotation of which is made in the form of pins 6 entering the holes of the uprights 7. In the initial state the lever 5 is pressed to the base of the device by a spring 8. In addition, the lever 5 has two forks 9 and 1O. The plug 9 is placed in the immediate vicinity of the step-like nozzle 11 and seizes the drive belt branch which is adjacent to the nozzle 11. The fork 10 is placed in the immediate vicinity of the flywheel (not shown in Fig. 1) and captures the belt branch that runs off the nozzle. In the body of the stepped nozzle 11 diametrically located shtyri 12 and 13 (Fig. 2), which are directed parallel to each other and at an angle to its axis. The flywheel (Figs. 3-5) is provided with several guide slots 14, the longitudinal plane of each of which is made with a rise in the direction opposite to the direction of rotation of the flywheel. The device works as follows. When switching the belt speed from the smaller to the larger lever 1, it will move in direction A, turn lever 2, which will push through, screw 4 onto lever 5. The latter will turn on pin x 6, with the result that forks 9 and 10 will lift the branches of the belts. In this case, the pin 12 will transfer the branch of the belt from the bottom of the nozzle to the top. The profiled grooves 1.4 on the flywheel will facilitate the unhindered transfer of the belt to another stage of the flywheel. When switching the belt speed from the larger to the smaller released lever 5, under the action of the spring 8, the forks 9 and 1O move to the initial 44 position. At the same time, the pin 13 will reset the belt down to the groove of the smaller diagonal attachment 11. Meter The use of the invention will provide a more reliable switching of the speed of the magnetic tape in tape devices, made with 1x belt drive with significant differences in the diameters of the stepped nozzle and the flywheel. Claim 1. A device for switching the speed of movement of a magnetic tape, containing a stepped nozzle and a flywheel, connecting their belt and lever with a fork placed on it in front of the stepped nozzle, coupled with the branch of the belt attaching the nozzle, which differs from the fact that in order to increase the reliability of the belt switching, the lever is provided with an additional plug located in front of the flywheel and coupled to the belt branch that is compatible with the pivot, while the nozzle is equipped with diametrically disposed pins mounted forward operating grooves parallel to one another and non-orthogonal to the nozzle axis. 2. The device according to claim 1, characterized in that the flywheel is made with. with profiled grooves located between the working grooves, the plane of the profiled grooves being made with a rise in the direction opposite to the direction of rotation of the flywheel. Sources of information {l 1atsii taken into account during the examination 1. Za Germany of Germany No. 2517395, cl. qil 17/02, published in 1980. 2.Kozyrev A.V. and Factories M.A. Construction of any kind of tape recorders. M., DOSAAF, 1973, p. 34-36 (prototype). FIG. 2 /