DE1910351A1 - Method and arrangement for the complete rewinding of magnetic tape from one tape reel to another - Google Patents

Description

SIBMEETS AKIIENOESEI / ISOHAPO? Munich, the

Wittclsbacherplatz 2

pa- 65/2142

Method and arrangement for completely rewinding

The invention relates to a method and an arrangement for the complete rewinding of magnetic tape from one tape reel to the other in magnetic tape devices where the tape forms loops in the vacuum chamber and that End of the tape can be determined with the help of a tape end marker. ■

A decisive advantage of magnetic tape storage is that the very large storage capacity itself can be extended by replacing the reels. To do this, it is necessary that the rolling back onto the tape reel to be replaced and the replacement process itself can be carried out in a simple manner.

The rewinding is usually done at a very high speed » * .. 'gets the tape at such a high speed completely onto the receiving, replaceable bobbin wound back, then there is a risk that after loosening the end of the tape from the dispensing reel the tape end drawn into the vacuum buffer chambers and thereby damaged.

The invention is now intended to provide a method by which the tape can be rewound completely from one reel to the other without the tape The task of the Invention in specifying an arrangement with which the method according to the invention can be carried out "

The method is characterized in that the tape is moved at high speed from one tape track to the other.

PA 9/415/640 11 / Hei 00 98 36/1 7 0 6 _ ₂ -

- 2 ~ "■■ '

le is rewoundMs the end of the tape marko 'on one first light barrier past, that then the tape. winding braked and the pressure blower for the; Buffer chambers are switched off and: that then the receiving tape roll at low speed (Creeper) is driven alone and the belt is driven by the donating reel and from the buffer caramers pulls and winds it up until the end of the tape mark passes a second light barrier. ,

The end of the conveyor mark slides at the first light barrier then a pulse is generated * that of the control circuit for the vacuum fan and the control circuit for the brakes is supplied o The control circuit for the vacuum blower this switches off; the Control circuit for the brakes operates them so that the reels are braked. The rest of the tape on the dispensing reel will now slow down Speed is rewound in the so-called crawl gear until a second light barrier from the end of the tape mark happens, which then generates a signal that the taking up reel immediately or after a delay stops. The entire tape has now been wound onto the receiving tape reel. The tape reel can be replaced.

The speed of the belt in creep speed can go through a control circuit can be set »

Other developments of the invention emerge from the Subclaims o

The invention is further illustrated by way of example \; ₀ Ground drawings:

PA 9/415/640

_ 009836/1706

Pig. 1 is a schematic representation of the drive of a magnetic tape recorder and the tape guide,

Fig * 2 is a block diagram of the control circuit for the creep speed,

Fig. 3. a photo amplifier used in the control circuit, 4 shows an integrating element used in the control loop, FIG. 5 shows a possible embodiment of the control circuit for the drive motor of the receiving tape reel =

In Fig. 1, tape reels with 10 and 12, buffer chambers with 14 * 16, a magnetic tape with 18, pre-buffer chambers with 20 and 22, transport rollers with 24 and 26, pressure magnets with 28, JO, a reading and writing device with 32. The magnetic tape device also has a first light barrier 34 and a second light barrier 36 The end of the line mark on the line 18 passes the first light barrier 34. This first light barrier is arranged between the 2cndspule 12 and the vacuum buffer chamber 14. The light barrier 34 generates a pulse which is fed to a first control circuit which causes the brakes of the tape reels 12 and 10 to intervene. At the same time, the pulse is fed to a second control circuit, which switches off the vacuum fan for the ruffer karcmern 14 and 16, 20, 22 = these control circuits can be constructed in the usual way. Their structure depends on the type of brakes used and the control and design of the vacuum blower. If, for example, electromagnetic sources are used, then a control circuit can consist of a controlled switch which is closed by the impulse from the light barrier and thus enables the up-stream to the electromagnetic brake = Wir4 _l e.g. _; BV ^ da.s;, lJ £ teräurckge ■ blower driven by a motor, then camrclie zv / ei-

PA 9/415/640 '. . _; - ^ -

00 98 36/1706

BATH

te control circuit also consists of a controlled switch exist, which is then opened by the pulse from the first light barrier 34 so that the. Power supply to the Motor is interrupted and the motor is stopped .. Other possible embodiments of the two control circuits are possible.

After the end of the band has passed the first light barrier, the reels 12 and 10 can come to a standstill be braked. But it is also possible that it is only braked to a very low speed. In both cases, however, only the receiving tape reel, in the exemplary embodiment the tape ^ reel 10, further driven The dispensing tape reel 12 runs along with nothing. The speed at which the tape reel 10 pulls the tape from the dispensing tape reel 12 out of the buffer chambers 14, 16 and the pre-buffer chambers 20, 22, is very small (creeper). With this little one The end of the tape from the tape reel 12 becomes speed pulled down and pulled through the transport devices 24, 26 and the treading and reading device 32, until the end of the conveyor belt passes the light barrier 36 * This second light barrier 36 generates a pulse through the drive for the tape reel 10 is stopped. Depending on the arrangement of the second light barrier 36 the tape reel 10 is stopped immediately or a certain time later in order to ensure that the tape is completely wound onto the receiving tape reel 10 » The edge coil 10 can then be replaced.

Are Since the vacuum blower to the buffer chambers 14 and 16 and the Vorpuff erkarnmern off 20 and 22, the belt loops can easily be pulled out of the withdrawing tape reel 10 from the buffer chambers * The tape can then not be taken into the buffer chambers into _& and Tseschädigt. Because in the buffer chambers

PA -9 / 41.5 / 640. - 5 -

00 9 836/1706

_ 5 -

If there is still a slight negative pressure, a dampening effect is exerted on the magnetic tape when it is rewound.

The control of the motor driving the receiving tape reel in creep speed is carried out by a control circuit, the block diagram of which is shown in FIG. This control circuit consists of a clock disk 40, the photoelectric scanning device consisting of a lamp 41 and a photo element 44, a photo amplifier 46, a differentiating element 48, an impedance converter 50, an integrating element 52, a rocker control 54 ^{and aU3} a motor 56. The winding motor drives the receiving tape reel. The timing disk 40 is operated at the same speed as the receiving tape reel and thus as the winding motor 56. The frequency of the pulses generated by the photo element 44 depends on the speed of the timing disk. These pulses are amplified in the photo amplifier 46 and converted into square-wave pulses In the subsequent differentiating element 48 they are differentiated in order to obtain a signal that depends on the speed change of the clock disk. The integrating element 52 is constructed in such a way that the total voltage at the output decreases when the frequency of the clock pulses increases and increases when the frequency of the clock pulses decreases fixed voltage due to the dimensioning d The integrator 52 determines the speed of the winding motor 56. The surara voltage is fed to the winding control 54, which adjusts the speed of the winding motor 56 according to its value.

PA 9/415/640 - 6 ■ -

0 0 9836/1706

One possible embodiment of the photo amplifier 56 is shown in Pig » 3 . It consists of a DC amplifier 60 .. and a Schmitt trigger 62, followed by the output stage 64. The DC amplifier is composed of / aa transistors 58 and 61. The photo element 44 · iöt is connected to the dG.no.Erai ^: tter of the transistor 58. Depending on whether the photo element 44 is conductive or non-conductive, is; the i? 'Transistor 58 permeable or non-permeable. Transistor 61 is turned on and off in the same rhythm. The output pulses of the DC amplifier 60 v; he given the to a Schmitt trigger 62, which converts them into square pulses. These rectangular pulses are passed on from the output stage 64 to the output A. The voltages U1, U2 are constant operating voltages =

The impedance converter 50 may consist of a Z ₀ B. emitter follower ,,

One possible embodiment of the integrating element 52 is shown in FIG. 4. It consists of a capacitor 70, a variable resistor 72, a diode. 74 and a resistor 76 which is connected to a fixed potential TJ3 is. The integrator are at the input E. Pulses supplied These pulses should have such a polarity that the diode 74 is blocked as long as they concern. If no clock pulses are sent to input E. given, then the diode 74 is controlled to be conductive, a current flows through the capacitor 70 to the operating voltage source Ü3. The voltage U2, which is above the Capacitor 70 is built up, can through the resistor 72 can be set. This voltage UR is fed to the winding control 54. If clock pulses appear at the input E of the integrator, then the diode 74 is in rhythm the clock pulses locked and opened =. As long as the diode 74 is blocked, the capacitor discharges 70 across resistor 72. The voltage across the capacitor

PA 9/415/640 - 7 -

009836/1706

70 becomes more positive. If the frequency of the clock pulses increases, then the voltage across the capacitor 70 becomes more positive as the frequency decreases, i.e. the voltage across the capacitor 70 becomes more positive Capacitor UR negative.

A basic example for the winding control 54 is shown in FIG. It is assumed that the drive motor or winding motor 56 an asynchronous motor is used. It's just that Control circuit shown for one phase, a similar circuit is necessary for the other two phases. In the power supply line to the asynchronous motor 56 are zv / ei parallel-connected opposing current gates 80, 82 switched on. The electricity gates can, for example, Be thyristors. These current gates 80, 82 switch in accordance with the control circuit at their control inputs UST through the animal ice voltage UVi to the motor 56. By selecting the control voltage UST accordingly the period of time in which the alternating voltage UW reaches the motor can be set. This can do that Hotordrehnoment are influenced. The control voltage UST is generated by a transformer 84 »a tranaistor 86 and a transformer 88. The total span of the integrator UR is connected to the transistor 86 at its base via the secondary winding of the transformer 88 fed. An alternating voltage UW1 is fed to the primary winding of the transformer 88. Depending on the size of the southern voltage UR, is in the rhythm the alternating voltage UWt the transistor 86 longer or shorter conducting controlled * The changes accordingly Control voltage UST on the secondary winding of the transformer 84. Hit U4 and U5 are denoted constant potentials. ™

The technical implementation of the individual components the control circuit according to Fig. 2 can of course

PA 9/415/640; ^rj * ⁰ ^ - 8 -

00 98 36/1706

borrowed also take place in a different way than it is shown in Figures 3, 4 and 5. The design of the winding control 54 depends, for example, on the afc * wol.ch.er motor being used as the winding motor.

4 claims

5 figures ^N

PA 9/415/640 "9 _

009836/1706

Claims (4)

Jv a 1. A method for completely rewinding magnetic tape from one tape reel to the other in magnetic tape devices in which the tape forms loops in the vacuum pipe and the end of the tape is determined with the help of a tape end mark, thereby geke η η ζ ei oh η et that the magnetic tape is rewound at high speed from one ^f to the other tape reel until the end of the tape marker loops past a first light barrier (34), then the tape reels are braked and the vacuum fan for the buffer chambers is switched off, so that the receiving tape reel is then slowed down Speed is driven alone and pulls the tape from the dispensing tape reel and out of the buffer chambers and winds it up until the end of the tape mark passes a second light barrier (36) » 2. Arrangement according to the method according to claim!, Characterized by a first light barrier (34) which is arranged between the dispensing tape reel (12) and the buffer chamber (14) assigned to the dispensing tape reel (12) and emits a signal when the The tape end carcass passes it by a first control circuit, by which the brakes of the tape reels are controlled, by a second control circuit ¹ by which the vacuum fan is controlled, by a control circuit by which the speed of the receiving tape reel (10 ) is controlled in creep speed and by a second light barrier (35)? by which a signal is generated when the tape end car passes, which causes the shutdown of the drive of the receiving tape reel (10) =. 3. Arrangement ^ according to claim 2, ge k e η η ζ e i c h η o-t PA 9/415/640 _ ₁₀ - 009836/1708 . ■■■■. ; "'· - 10 - ^; " ■■■■ V- dureh a 'control circuit from a timing disk (40), the rotates at the same speed as the receiving one Tape reel, an ATd ta st device (42, 44) for the Taktscheibo (40), a photo amplifier (46), the Amplified clock pulses and gives them a rectangular shape, a differentiator (48), an impedance converter (50), an integrator (52) which outputs a voltage corresponding to the frequency of the clock pulses, a Winding control (54) and by a winding motor (56) controlled by the winding control (54) Will that its speed will decrease as the clock frequency increases. 4. Arrangement according to claim 3, characterized by an integrating element from a parallel circuit a capacitor (70) and a variable resistor (72), which via a diode (74) and a further resistor (76) is connected to a fixed potential (U). PA 9/415/640 00 98 36/1708 Empty s e i f e