DE1015618B - Adjustment device for magnetic head - Google Patents

Description

GERMAN

It is known to record information by means of a magnetic head in magnetic backup devices, e.g. Drum made of non-magnetic material with a magnetic lining on it and to be removed again. It is also common for magnetic drums of this type to use the magnetic head to distance from the drum so that the magnetic head does not touch the drum, so that the thin magnetic layer on the drum is not scratched and punctured.

The invention provides an arrangement which allows the magnetic head to be adjusted relative to the drum surface so improved that at all times the greatest possible efficiency in recording and Removal of the information is preserved by, according to the invention, the magnetic core by elastic Means, e.g. B. a spring, out of the coil and in the direction of the recording surface and through other means, e.g. B. a pin pressing against a pin located on the core, opposite the elastic force is pressed into the winding.

The invention is explained in more detail using an exemplary embodiment with reference to drawings. It shows Fig. 1 is a front view of a magnetic head,

Fig. 2 is a view of the section of Fig. 1 along the line 2-2,

Fig. 3 is a sectional view of Fig. 1 along the line 3-3,

4 shows a further sectional view along the line 4-4,

Fig. 5 shows a compilation of the for setting the distance between the magnetic head and the magnetic drum required funds,

FIGS. 6 and 7 show a schematic representation of the distance setting between head and drum.

In Fig. 1, a housing made of, for. B. plastic a winding 20, which consists of one or more turns may exist and has the terminals 22 (Fig. 1 to 3). The feeds 21 are connected to these guided through the housing 10. A laminated core having legs 14 and 15 is rotatable about the pin 13 is mounted in the housing 10. There is an air gap between the ends of the legs 14 and 15 16, which is filled with a non-magnetic material such as silver solder. Leg 15 runs loose through the winding 20. Normally, the core is driven by a spring 19 counterclockwise pressed. The core carries a pin 17 onto which a screw pin passed through the housing 10 18 acts. If the pin 18 is rotated while rotating downwards, one located on it acts Tip 18 a on the pin 17 and moves against the elastic force of the spring 19, the core in the clock setting device for magnetic head

Applicant:

IBM Germany

International office machines

Gesellschaft m.b.H.,

Sindelfingen (Württ),

Böblinger Allee 49

Claimed priority:
V. St. v. America dated February 5, 1954

Edgar Alan Brown, Owego, NY (V. St. A.),
has been named as the inventor

clockwise. Any upward pressure is resisted by the spring 19.

The housing 10 is preferably pressed and, as shown in FIGS. 2, 3, 4, can consist of two parts held together by rivets 23. The housing 10 is also provided with lugs 11 which are provided with slots 12 from the top to the base line. As a result, the housing can be fastened to the rails 24 and 25 by means of a pair of bolts 12 a and 12 b and spring tabs 11 a and life adjustable relative to a drum 27 rotating about the axis 26.

The structure of the magnetic head can best be seen in FIGS. Its application works from Fig. 5, where, as already described, the head on a pair of rails 24, 25 in the vicinity of the Recording drum 27 is mounted, which is in operation at constant speed around its axis rotates.

For the purpose of explanation, it is assumed that the magnetic head shown in Fig. 5 has two windings be provided. The first winding is used to record discrete magnetic points on the Surface of the drum 27, the second for taking signals from the first on the drum were recorded. In the arrangement of FIG. 5, a current source 29 is provided with a conventional one Pulse generator controlled by switch 5 "for feeding the recording winding of the head. Furthermore, an amplifier and a display device

709 696/143

Device, e.g. a cathode ray oscilloscope, for the pulses are recorded in this way and measurement of the signals occurring at the resistor 28 is observed, with either bolt 12a voltage pulses that are induced in the second removal or 12b between the individual recordings of the head being wound . is pulled. As a result of this measure, a sequence of signals is displayed in the lines 31, 32 and 33 connecting the magnetic 5 instrument 30, from head windings to the power source 29, each of which has a greater amplitude,

Usually, as shown in FIG. 5, the magnetic head at such a distance from the magnetic head is reduced with each adjustment. When the gap finally becomes 0, because the circular surface of the drum 27 is arranged, the core of the magnetic head occupies the drum surface a distance d separates the legs 14 and 15 (stirs the air 10, gap 16 is opened with further application of pulses) from the drum surface . This no further increase in the signal amplitude observing distance will be referred to in the future as a gap and is to be tet. Another indication that the core is touching the drum surface in order to avoid contact and damage is necessary in the instruder. So far, the gap in the case of the fixed element 30 was only detected with the aid of a light in addition to the signals due to the occurrence of an interference voltage due to the drum. Beam or similar means produced. This input All of the settings observed in the previous section

However, the position is often uneven and the trom unsatisfactory recordings and removals are performed at full operating speed. Was there made domestic mel, and zwifolgedessen during contact where as with most _"sc hen core and drum rotates this with full Gemagnetischen save many magnetic heads on a 20 speed a short time more long. (This time single drum are arranged, too much time was 1 minute in one embodiment.) Repeated, tiresome adjustments are required. Due to this running-in period, you achieve between

By the arrangement of Fig. 5, the single core and drum is running in, so that the position of the gap by the attachment of the drum touching part of the core with the drum magnetic head on the rails 24, 25 by means of the 25 coincides with the circumference. Further, the pins 12a and 12 and the spring tabs α 11 and drum surface b possible in each core trace of any-11 so that the core (legs 14, 15j on which layers cleaned, so that small Exzentrider .ruht drum surface, wherein the core by The efficiency of the drum is eliminated and the efficiency of the spring 19 is increased against the drum. Most of it, however, is removed from the core - by means of the pin 18, the core of the 30 can be ground, as the ferromagnetic sheets from which the drum is moved The drum will then be softer than the drum surface, which in many cases consists of nickel-cobalt alloys in the usual manner, for example by synchronous cutting , motor, rotated at constant speed. After the run-in or grinding-in period, the

Switch 6 ¹ is actuated, whereby the recording pin 18 is rotated and thereby the core is supplied with power from the drum winding and a discrete point surface is raised, ie a value is recorded on the drum for the gap. This is given greater than 0. This can then be scanned immediately by the removal winding and set to achieve a certain signal value generates a voltage at resistor R 28, which can be changed from 0 to several hundredths of the amplitude of the 40 millimeter that appears in the oscilloscope Equal pulse is reproduced. Pin 18 can be operated together with the drum until a prescribed amplitude tend magnetic heads. With this method it is achieved in the display instrument 30 and all the best recording and removal effects are achieved, magnetic heads of a storage drum are placed uniformly without resorting to light beams or the like. In the case of a drum expansion 45 without lengthy adjustment measures, which occurs beforehand, since the cores are pressed with spring force against the drum of a drum having about 200 magnetic heads, no damage from contact lasted between several days. It is evident that the core and drum are on. Even if this running-in process can be simultaneously evaluated for several magnetic heads that work together with the same drum positioning process while the drum is rotating, no pick-up and removal can be carried out.

optimum obtained because: the gap as a result of the input In Fig. 6 is an ordinary magnetic head drum

Position on the same signals from all magnetic heads shown mel arrangement, while Fig. 7, the arrangement is too excessively dimensioned '·. Carefully and accurately reproduced in accordance with the invention. In both designs of head and drum work one strive for a magnetic drum 27 with a head to improve pick-up and removal. In each case, the one core 14, 15 with the air gap 16, however, this measure is expensive and conditional and one winding 20 and a core drum often has undesirable manufacturing requirements. Gap d . It can be seen that in each case, the moment a spread a of the recorded following method eliminates the mentioned disadvantages , as described above, attached to 60 equal value of d in each arrangement and equal to the rails 24, 25 / The pin 18 is pulled out regardless of all other factors (such as input current, so far that there is no effect on the permeability, drum surface, etc.) it is clear, pin 17 is exercised: the bolts 12 a, 12 b are that the strength of the Au driven through the gap d are not fully tightened. A single pulse flow in the area α of the arrangement according to FIG. 6 is then recorded on the drum 27, and 65 where the core has not entered is smaller than when the amplitude of its corresponding signal is in the arrangement according to FIG. 7, where a break-in instead of gauge 30 is observed. One of the bolts found that the gap above α in FIG. 6 is larger than that in is then tightened more firmly and a second impulse is FIG. 7. A similar condition exists in the case of recording on the drum and its corresponding extraction of the recorded signals. The arrangement. of the signal in turn observed. As a result, several individual voltages shown in FIG. 7 are more effective. : '■■'

Another advantage of that shown in FIG. Magnetic head is the possibility that the magnetic head according to Fig. 1 can be rotated 180 ° about its vertical center line, with a record and / or playback time shift can be achieved because the air gap 16 of FIG. 1 outside the Center line lies. This construction opens up a feasible way, a time delay of information in any magnetic drum path simply by turning the housing around opposite the fixed ones To achieve rails 24,25 of the arrangement according to FIG. It presents this an additional adaptability the arrangement compared to those in which the air gap is in the center line of the housing lies.

Apart from the method described for achieving a time shift, the arrangement enables a fine adjustment time shift in the following way: After the core after the on Hand of the method described in FIG. 5 has been brought into contact with the drum Bolts 12 a in one direction and bolts 12 & in the opposite direction Direction can be adjusted so that the air gap 16 moves along the drum surface and causes a time shift. When a starting point is due to a signal from another Magnetic head is given on the same drum, by observing the display instrument 30 a prescribed time shift can be achieved precisely within the control limits.

Claims (8)

PATENT KITCHEN: 1. Device for adjusting the distance between a magnetic head and the surface of the recording medium, e.g. B. a magnetic drum, especially for recording or sensing of pulses, characterized in that the magnetic core with the legs (14, 15) of the head by elastic means, e.g. a spring (19), from the winding (20) of the magnetic head in Direction to the recording medium (27) pushed out and by other means, e.g. B. a against a pin (17) attached to the core pressing screw pin (18), opposite to elastic force is pressed into the winding. 2. Apparatus according to claim 1, characterized in that the magnetic core with the legs (14, 15) is rotatably mounted about a pin (13) in such a way that the one leg (15) within the winding (20) is longitudinally displaceable. 3. Device according to claims 1 and 2, characterized in that the core in the from the part pressed out of the winding has an air gap (16). 4. Device according to claims 1 to 3, characterized in that the surface of the magnetic core at the location opposite the recording surface in its shape of the recording surface (a in Fig. 7), for. B. the surface of a storage drum (27) is adapted. 5. A method for adjusting the device according to claims 1 to 4, characterized in that that the magnetic core is brought into contact with the recording drum, the drum rotated for a certain time with the core resting on it and then the distance between Core and drum is enlarged. 6. The method according to claim 5, characterized in that the core (14,15) gradually to the The drum is pushed towards it and that between these stages pulses are drawn on the drum, can be removed from this again and observed in a display instrument (30) until after continuing repetition of this process, a signal change is no longer detected. 7. The method according to claims 5 and 6, characterized in that after the induction the contact between core and drum, the distance between core and drum as long is increased until the amplitude of the playback signal is recorded in a constant size Signal reaches a predetermined value. 8. The method according to claims 5 to 7, characterized in that a temporal shift of the recording is achieved in that the recording head is rotated about its vertical central axis by 180 ° or by different degrees of tightening of the bolts (12 a, 12 b) the support rails (24, 25) the magnetic head is moved tangentially to the drum (27). Considered publications:
'German patents ISTr. 376 503, 732 906; Printed matter PX 71129 A from Engineering Research Assoc. Div. Remington Rand Inc. St. Paul. 1 sheet of drawings © 709696/143 9.57