DE3339953A1 - Sliding part for a magnetic tape - Google Patents

Abstract

A sliding part for magnetic tape is described, there being an oxide film of a metal formed on the surface of a main body of a metal part of the same metal. The sliding part is preferably used as part of a picture receiver or video recorder or as part of a picture-receiver or video-recorder tape cassette.

Description

Sliding part for a magnetic tape

Sliding Part for a Magnetic Tape The invention relates to an improvement of parts for sliding moving magnetic tapes, in particular one Improvement in the tape guidance, in the guide rod and the like. That is to say in a substantial way Components of a magnetic tape cassette, or in a cylinder, at the loading point and the like, i.e. essential components of B BiUjlSrufnahmegeraten or video recorders.

To improve the quality of picture recording or playback by a video recorder, the smoothness of the magnetic layer is that in the video recorder The magnetic tape used is of particular importance. To ensure a magnetic layer The surface of the tape main body, which is the magnetic layer, must also have a smooth surface wears, be smooth. However, as the tape surface becomes smoother, the locomotion properties become higher of the tape is impaired.

To solve these difficulties has already been mentioned on the reverse side a coating is applied to the tape. This actually allows the locomotion properties improve the tape. The disadvantage of this, however, is that it results in greater wear of the parts that keep the tape sliding, e.g. the tape guide, whereby the picture quality is impaired.

The drawing shows a state in which a video recorder 1 of the VHS type, a magnetic tape cassette 2 is mounted. As the drawing shows, are located within a region of a band 5, which corresponds to the dashed Line is closed, belt drive axles 3 and two pairs of loading bars 4. In In this state, the tape moves quickly forwards and backwards. To record and playback, the two pairs of loading rods 4 are out of their position in the cassette 2 moved in the direction of the arrow into the interior of the video recorder 1. The charging bars 4 hold so that the tape 5 is wound around a rotating cylinder 6.

A pressure roller located in the video recorder 1 then moves or roller 7 from the position indicated by the dashed line into the position indicated by the isolated line indicated location. Here, the belt 5 is against the belt drive axles 3 pressed, whereby the tape starts to run.

In the drawing are also with 9 a take-up reel, with 10 a Dispensing roller, with 11 an erase head, with 12 a sound control head, with 13 damping rollers and at 14 denotes a guide rod. When the tape runs in the specified manner, especially those parts over which the tape slides, e.g. the tape guide 8 of the cassette 2 and the guide rod 14 of the cassette 2, worn. Though do not rotate these parts as such, they will be in sliding connection against the Pressed tape.

Now to the running properties of a magnetic tape that is in sliding contact runs over these parts, to improve, elements of these have already been made of non-magnetic, made of stainless steel with a hard chrome finish plated. on in this way, however, no satisfactory running properties can be achieved (of the tape). In addition, these measures are complex and costly.

The invention was based on the object of providing an extremely wear-resistant and inexpensive sliding part improving the running properties of magnetic tapes for creating magnetic tapes.

The invention thus relates to a sliding part for magnetic tapes having a main body made of a metal part and a metal oxide film formed thereon. The main body is made of an alloy with 3 to 30 wt% Cr, in practice for example from a Ni-Cr-Fe or Mn-Cr-Fe alloy, in particular an alloy with 3 - 30 wt .-% Cr, 3 - 30 wt .-% Ni and the remainder iron or 5 - 30 wt .-% # Mn, 3 to 30% by weight Cr and the remainder iron. The mechanical strength and adhesion of the Oxide film formed on the main body can be improved by a maximum of 10% by weight of Al, Ti, Nb, Mo, Si and / or V is added to the said alloy.

If the alloy contains a large amount of Cr, the atmosphere becomes set during the oxidation treatment to the effect that the to be formed Oxide film mainly contains Cr oxides. In this case, the oxide film is preserved in the highest expediently high wear and abrasion resistance.

A sliding part according to the invention may be made of an alloy main body and an oxide film formed thereon and an inner part of another Made of metal.

To on the surface of a part constituting the main body with good Reproducibility and low cost to be able to form a metal oxide film, the part forming the main body is, according to the invention, in a moist or oxygen-containing one Heated hydrogen gas atmosphere. The heating is preferably carried out in a hydrogen gas atmosphere a dew point of 0 - 60 ° cm, preferably 20 - 50 ° C, to a temperature of 800-12000C for 5 minutes to 10 hours. In practice, the heating time ranges from 15 min to 5 h.

The oxide film shows after its formation on the surface of the Part forming the main body has a valuable effect in practice. So that he is a can work well, the oxide film preferably has a thickness of 1 #m or more. The oxide film also preferably has a smooth surface therewith the running properties of the magnetic tape can also be improved. In particular the surface irregularities should not exceed 1 µm.

In order to smooth the oxide film surface, it is appropriate to use the oxide film to subject it to a surface treatment after its training.

In view of good wear resistance, the oxide film contains preferably chromium oxide as the main component.

The strength and adhesion of the oxide film can be improved if besides chromium, it does not exceed 10% by weight of aluminum, titanium, niobium, molybdenum, silicon and / or Contains vanadium.

The following example is intended to illustrate the invention in more detail.

Example of three different alloys of the one below The composition given in the table are three tape guide main bodies of the dimensions 6 0 x 4.9 0 x 16 1 mm. The tape guide main bodies obtained become then surface-treated under the conditions given in the table.

Eventually, three magnetic tape cartridges are made.

Two of them have different, surface-treated tape guides according to the invention, a.

For comparison purposes only contains a surface-treated one Tape guide. The tape cartridges are then reduced to their S / N (signal / noise) ratio measured out. The results obtained are shown in the table. The measurement of the S / N ratio takes place in a frequency range from 1 kHz to 4 MHz before and after running the tape for 100 hours using a commercially available color video noise meter. The term "difference" in the table corresponds to the difference in the S / N ratio after 100 hours of running time, if the S / N ratio of the comparison cassette with "Q" is attached.

TABEL Composition surface S / N ratio of the of alloy treatment tape (dB) to after Decision 100 girul hour- ger running time 16Cr-14Ni-Fe 30 minutes Heating up 1100oC in a water 44 42.2 +1.2 stoffatmo- Sphere one game according to dew point that of # 250C He- fin- 20Cr-16Ni-5Ti-Fe 30 minutes dung heating up 110O0C in a Wasr 44 42.9 +1.9 oxygenate atmosphere of a rope point of QOC Ver 18Cr-9Ni-Fe hard-coated 44 41 0 chrome plating at- game As can be seen from the table, in a cassette with a tape guide according to the invention, the tape guide gives the tape that is in sliding contact with it, excellent running properties. For this reason, the S / N ratio of the tapes of the cassettes in the examples according to the invention is better than in the comparative example. In addition, the surface treatment carried out according to the invention is simpler than the surface treatment carried out in the comparative experiment and is consequently advantageous for industry.

A magnetic tape slide according to the invention can be incorporated into a computer and the like, can be incorporated in a VCR, tape cassette and the like.

L e r s e i t e

Claims (6)

PATENT CLAIMS Magnetic tape sliding part with a main body of a Metal part and a metal oxide film formed on its surface, thereby characterized in that the metal oxide film is an oxide of a metal of the main body forming metal part includes. 2. Sliding part according to claim 1, characterized in that the metal consists of an alloy with 3 - 30 wt .-% chromium. 3. Sliding part according to claim 2, characterized in that the metal consists of an iron alloy with 3 to 30% by weight of chromium and 3 to 30% by weight of nickel. 4. Sliding part according to claim 2, characterized in that the metal consists of an iron alloy with 3 to 30% by weight of chromium and 5 to 30% by weight of manganese. 5. sliding part according to claim 1, characterized in that the metal oxide film consists primarily of chromium oxide. 6. sliding part according to claim 1, characterized in that it is in a Tape cassette for an image pickup device is housed.