DE1910351C3 - Method and arrangement for completely rewinding magnetic tape from one tape reel to the other - Google Patents

Description

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I 910 351

head arrangement. The magnetic tape is not, however, a .schematic representation of the running so long wound on the receiving tape reel of a magnetic tape recorder and the tape head, that the end of the tape is under the magnetic head end guide,

voltage is pulled through. A complete rear view Fig. 2 is a block diagram of the control loop for

winding process in which the entire magnetic tape of 5 has the creep speed,

one tape reel is rewound onto the other tape reel Fig. 3 shows a photo used in the control loop, does not take place here. amplifier,

By contrast, the invention is intended to provide a method F i g. 4 an integrator used in the control loop is given through which the magnetic tape is fully linked,

is constantly rewound on a tape reel, io Fig. 5 a possible embodiment of the control

without damaging the magnetic tape. circuit for the drive motor of the receiving

Furthermore, the object of the invention is to provide tape reel.

To indicate an arrangement with which the invention. In Fig. 1, tape reels with Ii) and 12, vague Procedure can be carried out. kuumpufTerkammern with .14, 16, a magnetic tape

The process is characterized by the fact that 15 with 18, vacuum pre-puffing chambers with 20 and 22, the signal triggered by the first light barrier when passing transport rollers with 24 and 26, pressure magnets with the end of tape mark additionally with 28, 30, a read and write device with 32 Vacuum blower for the vacuum pump chamber. The magnetic tape recorder also switches off that then the lower tape a first light barrier 34 and a second speed of light solely through the autnahmende 20 barrier 36. Is now shown. Magnetic tape 18 is caused by the tape reel and the dispensing tape reel 12 completely a ^ i the tape reel 10 ge tape reel runs freely and that the receiving reel is wound, then the tape reels 12 and tape reels are then the magnetic tape from the dispensing 10 first driven at high speed, ilen tape reel and out of the vacuum pump chambers until the tape index mark on the magnetic tape 18 the ' loops and winds it up until the end of tape mark as the first light barrier 34 passes. This first light > \ the second between the reading and writing barriers is between the tape reel 12 and the vacuum. Establishment and the receiving tape reel buffer chamber 14 is arranged. The barrier 34 arranged by the light / uleordinate vacuum chamber generates a pulse which passes a light barrier. first control circuit is fed to the brake

The arrangement for performing the method 30 sen of the tape reels 12 and 10 can intervene. The same consists of the first light barrier, which in the meantime the impulse of a second control circuit is sent to the dispensing tape reel and that of the dispensing one, which switches the vacuum blower for the tape reel on, vacuum pump chambers 4 and 16, 20, 22, and a signal This control circuitry can pass it in the usual way and at the end of the tape mark, and be constructed from a first 35 way. Their structure depends on the type of control circuit through which the brakes of the belts used, of the actuation and coils are controlled, from a second control version of the vacuum blower. Are z. B. circuit through which the vacuum blower controlled electromagnetic brakes, then can be, -jus a control circuit through which a control circuit consists of a controlled switch speed of the receiving tape reel in the <, o , which is caused by the pulse from the light creep is controlled and is closed from the second barrier and thus the current light barrier, through which, when the tape feeds to the electromagnetic brake, a signal is generated at the end mark that the breastfeeding is z. B. the vacuum blower driven by a motor networks the drive of the receiving tape reel, then the second control circuit can be initiated. 45 also consist of a controlled switch.

If the end-of-tape marker slides past the first light, which is then passed by the pulse from the first light barrier, a pulse is generated which opens barrier 34 so that the power supply to the control circuit for the vacuum fan and to the motor is interrupted and the motor of the Control circuit for the brakes is supplied. is stopped. Other possible designs The control circuit for the vacuum blower 50 of the two control circuits are possible,
switches this off; the control circuit for the brake After the end of the tape mark the first light causes the tape reels to decelerate. The barrier has passed, the tape reels 12 and the remaining 10 on the dispensing tape reel can be braked to a standstill. But it is band is now possible with slow speed ¹ · in also that they only to rewind to a very small so-called creep, are decelerated to a 55 modem speed, second in both cases photocell before! the band end marker but then only the receiving is passed, which then generates a signal indicative of the ^reel: m driven further embodiment, the tape reel 10, receiving reel immediately or after a. The dispensing tape reel 12 runs, decelerates, stops. This means that the entire magnet is empty. The speed at which the tape reel was wound onto the receiving tape reel 60 10 the magnetic tape has been removed from the dispensing tape reel. The tape reel can be replaced. 12 from the vacuum buffer combs 14, 16 and the

The speed of the magnetic tape in the creeping vacuum pre-track chambers 20, 22 pulls out is

gear can be set very small by a control circuit (crisis gear). With this little speed

will. The end of the tape is removed from the tape reel 12

Other developments of the invention result in 65 pulled down and great transport 24,

from the subordinate sayings. 26 and the writing and reading device 32

The invention is carried out on the basis of execution until the end of tape mark the light examples further efvsatert. It shows barrier 36 passed. This second light barrier 36

generates a pulse by which the drive for the same rhythm v / ird transistor 61 is closed and tape reel 10 is stopped. Depending on the arrangement. The output pulses of the direct current of the second light barrier 36, the tape amplifier 60 are stopped immediately on a Schmitt trigger 62 reel 10 or given a certain time, which converts them into rectangular pulses, later to achieve that the magnetic tape is full. 5 These square-wave pulses are passed on from the output terminal 64 to the receiving tape reel 10 at output A. The Spanwickelt is. Subsequently, the tape reel 10 nungeni / 1, U 2 are to be substituted may constant operating voltages. The impedance converter 50 can, for. B. from a

As the vacuum blower exist for the vacuum buffer emitter follower.

chambers 14 and 16 and the vacuum pre-buffer io One possible embodiment of the integral member 52

chambers 20 and 22 are switched off, which is shown in FIG. It consists of one

Tape loops very easily from the pulling tape capacitor 70, a variable resistor

coil 10 out of the vacuum buffer chambers 72, a diode 74 and a resistor 76, the

be pulled. The end of the tape cannot then be connected to a fixed potential t / 3. The in-

the vacuum buffer chambers are drawn in and the pulses are applied to input E 15 grierglicd

be damaged. Since it comes into the vacuum buffer. These pulses are said to have such a polarity

If there is still a slight negative pressure, it will have that the diode 74 is blocked as long as it

a dampening effect on the magnetic tape when it is applied. If no clock pulses are sent to the input

Rewind exercised. output E given, then the diode 74 is permeable

The control of the receiving reel ao controlled, a current flows via the capacitor driving motor in the creeping is performed by 70 3 to the operating voltage source U, the tensioning A control circuit, the block diagram that is shown across the capacitor 70 in F ig 2 voltage Ul . This control loop consists of a built-up, can be set by the resistor 72 clock disk 40, the photoelectric scanning device. This voltage UR is fed to the processing consisting of a lamp 42 and a 25 Wickelsteucrung 54th Appear clock photo element 44, from a photo amplifier 46, a pulse at the input E of the integrator, then differentiator 48, an impedance converter 50. The diode 74 is blocked and opened in the rhythm of the clock pulses to an integrator 52, a winding control 54. As long as the diode 74 is blocked and from a winding motor 56. The winding motor is, the capacitor 70 discharges via the re-drives the receiving tape reel. The cycle stand 72. The voltage on capacitor 70 becomes disk 40 becomes positive at the same rate as. If the frequency of the clock pulses increases, then the receiving tape reel and thus the voltage across the capacitor 70 positive winding motor 56 is operated. The frequency of the pulses generated by ver, the frequency drops, then the voltage UR of the photo element 44 depends on the more negative pulses across the capacitor.
the speed of the timing disc. These im- 35 A basic exemplary embodiment for the pulses are amplified in the photo amplifier 46 and the winding control 54 is shown in FIG. It is converted into square-wave pulses. In the following, it is assumed that a differentiating element 48 is used as the winding motor 56, so that an asynchronous motor is used. Only the signal can be obtained which is shown by the speed control circuit for one phase and which depends on the change in the timing disc. Due to the 40 two other phases, a similar circuit impedance converter 50 is necessary to achieve decoupling. In the power line to becoming asynchronous. The integrating element 52 now forms a motor, two parallel-connected oppositely-directed summation voltages, which are switched on by the frequency of the clocked current gates 80, 82. The Stronitort impulse depends. The integrating member 52 can be, for. B. be thyristors. These current gates 80, 82 set up that the total voltage at output 45 switch in accordance with the control circuit UST at its control input drops when the frequency of the clock pulses increases and the AC voltage rises when the frequency of the clock pulses UW to the winding motor 56 through. Decreases by corresponding. In addition, when the control voltage UST can be selected, the integrating element 52 emits a certain fixed voltage - that is, if the timing disk has not yet had the duration in which the alternating voltage UW is running. Passed by 50 winding motor, can be adjusted. As a result, the dimensioning of the integrating element 52, the motor torque can be influenced, the speed of the winding motor 56 is determined. While the control voltage U ST is generated by Ainet sum voltage of the control winding 54 is led to-transformer 84, a transistor 86 and a via which the rotational speed corresponding to transformer 88. The sum voltage UR adjusts its value of the integrator of the winding motor 56th 55 member will practice the transistor 86 at its base

One possible embodiment of the photo amplifier is fed to the secondary winding of the transformer 88

kers46 is shown in FIG. It consists of the primary winding of the transformer88 is one

fed to a DC amplifier 60 and a Schmitt AC voltage UW II. Depending on

Trigger 62, which the output stage 64 follows. Which is the size of the total voltage UR , win

DC amplifier is made up of transistors 58 and 61 60 in the rhythm of the AC voltage UWl of the Tran

built up. The photo element 44 is controlled to conduct longer or shorter at the emitter sistor86. Ent

of transistor 58 connected. The control voltage UST ai changes depending on whether that is speaking

Photo element 44 is conductive or non-conductive, is that of the secondary winding of the transformer 84. With U '

Transistor 58 transparent or non-transparent. Constant potentials are denoted in and U 5.

1 sheet of drawings

Claims (4)

i 910 35t ι parallel connection of a capacitor (70) and claims: a variable resistor (72), which via a diode (74) and a further resistor 1. Method for completely rewinding (76) is applied to a fixed potential (L ').
of a magnetic tape from a tape reel to the 5th others with a magnetic tape recorder where the
Magnetic tape loops in vacuum buffer chambers forms and with which two light barriers an end-of-line mark so cooperate that when the end of tape mark passes through the io
first between the donating reel and the The invention relates to a method and kuumpufferkammer lying light barrier which is an arrangement for the complete rewinding speed of the magnetic tape reduces a magnetic tape from a tape reel to the and after passing the tape end mark 15 other in a magnetic tape device, in which the the second light barrier the magnetic tape magnetic tape loops in vacuum buffer chambers is stopped, thereby marked and in the case of the two light barriers with a net that the end of the tape mark by the first light barrier (34) interact in such a way that when the end of tape mark is passed, the end of tape mark passes through the The first signal also switches off the vacuum blower for the 20 between the dispensing tape reel and that of the vacuum buffer chambers due to the receiving tape reel (10) the magnetic tape is reduced and the tape reel (12) passing the tape end mark runs freely through the second and that the receiving tape light barrier the magnetic tape is stopped,
reel (10) then the magnetic tape from the tape reel (12) and from the vacuum storage is that the very large buffer chambers pulls and winds up until the storage capacity is reached by replacing the tape the second between the coils can be expanded as required. For this purpose, the reading and writing device (32) and that of FIG. 3 "need to be able to easily rewind onto the changing tape reel (10) assigned to the tape reel (10) and the replacement process itself in the vacuum buffer chamber (16).
barrier (36) passes. The rewinding is usually done with a very 2. Arrangement for carrying out the process - high speed. Will the tape with a rens according to claim 1, characterized by the 35 such high speed completely on the First light barrier (34) that returns between the tape reel that is to be picked up and replaced Tape reel (12) and wound the donor, then there is a risk that after Tape reel (12) associated with a vacuum buffer - detachment of the tape end from the dispensing tape chamber (14) is arranged and a signal rewind the end of the tape into the vacuum buffer chambers releases when the end of tape marker is pulled past it- * o and is thereby damaged. runs through a first control circuit through Auslegeschrift 1233 013 is which controls the brakes of the tape reels a device for magnetic tape devices for signaling, by a second control circuit, by the tion of the magnetic tape end and subsequent the vacuum fan is controlled, made known by shutting down the magnetic tape, a control circuit through which the speed 45 With the help of this device is achieved that at speed of the receiving tape reel (10) in the creep rewinding of the magnetic tape from a tape reel gear is controlled and through the second light on the other the end of the magnetic tape in a defining barrier (35), through which when passing the th distance from the magnetic head assembly to the At the end of the tape a signal is generated that the standstill comes. This is done with the help of light shutdown of the drive of the receiving band barriers 50 achieved, with two light barriers (10) caused. ken are assigned to a vacuum buffer chamber. 3. Arrangement according to claim 2, marked The light barriers are located on both sides net by a control circuit consisting of one of the associated vacuum buffer chambers. It will Timing disk (40) that moves with the same speed magnetic tape from one tape reel to the other speed revolves like the receiving tape reel, 55 wound back, then this happens first with a scanning device (42, 44) for the clock high speed under control of the two disk (40), a photo amplifier (46), which the tape reels by the associated vacuum buffer clock pulses Reinforced and they chambers rectangular shapes. If the end of the tape reaches the first, between there, a differentiator (48), an Impe tape reel and vacuum buffer chamber arranged danzwandler (50), a h.icgrier member (52), the 60 light barrier, a signal is generated through the one of the frequency of the clock pulses corresponds to the speed of the tape reels is reduced gives off the appropriate tension, and a winding becomes. The magnetic tape is then applied with a small control (54) and further rewound by a lower speed winding motor until the (56), the tape end mark so determined by the winding control (54), which controls between the vacuum puffur is that its speed decreases, 65 chamber and the magnetic head assembly Hegende when the clock frequency increases. second light barrier passes. Then that will 4. Arrangement according to claim 3, marked magnetic tape stopped and the tape end mark net by an integrating member consisting of a is located in a defined position to the magnet