JPH064848A - Leader tape for magnetic tape - Google Patents

Abstract

PURPOSE:To provide a leader tape capable of detecting the front or rear end of a magnetic tape and prohibiting the increase of error rate or dropout. CONSTITUTION:A vapor-deposited layer 1b made of a thin metal film is formed on a nonmagnetic film 1a and a protective layer 1c of a resin is formed on the vapor-deposited layer 1b to obtain the objective leader tape 1 having >=70% visible light reflectance, but the visible light reflectance of a magnetic tape 2 is <=10%. The thickness of the vapor-deposited layer 1b is 100-1,000Angstrom and that of the protective layer 1c is 0.2-3mum.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a leader tape connected to the beginning and end of a magnetic tape such as a video tape or audio tape.

[0002]

2. Description of the Related Art Magnetic tapes such as video tapes and audio tapes have splicing tapes having a length of about 10 to 20 mm at both ends and have a length of 200 to 400.
A leader tape of about mm is connected. As the leader tape, conventionally, a film such as PET or a film having a coating layer such as an antistatic material provided on the film has been generally used.

[0003]

When a tape cassette using the above-mentioned conventional leader tape is used for recording / reproduction by, for example, an audio cassette tape recorder, a magnetic tape end detecting means is disclosed in JP-A-61-22015.
There is No. 6 publication. This is to detect the difference in the amount of reflected light due to the difference in the light reflectance of the leader tape, the splicing tape, and the magnetic tape with a light emitting diode and a phototransistor provided on the anti-magnetic head side. However, the circuit becomes complicated because the first and second comparison circuits must detect the level change of the signal from the sensor. Further, as disclosed in Japanese Utility Model Publication No. 58-19720, there is one utilizing a difference in reflectance between a splicing tape and a magnetic tape. Since the reflectance of the splicing tape is higher than that of the magnetic tape, it is detected that the reflected light from the splicing tape increases. But,
In some cases, there is almost no difference between the reflectance of the magnetic tape and the reflectance of the splicing tape, and the end of the magnetic tape may not be detected. These problems are because the conventional leader tape is a type that transmits light and there is almost no difference in reflectance from the magnetic tape.

Further, the conventional leader tape has a problem that when it travels in the tape cassette, shavings are generated due to sliding with the guide post of the tape cassette, resulting in increase in dropout and error rate.

An object of the present invention is to provide a leader tape which can detect the beginning and end of a magnetic tape and which does not increase dropout or error rate.

[0006]

In order to solve the above-mentioned problems, a leader tape for a magnetic tape according to the present invention has a light reflectance of visible light of 70% or more, and the leader tape is non-magnetic. A leader tape having a vapor-deposited layer made of a metal thin film on a base film, and a protective layer made of a resin provided on the vapor-deposited layer, wherein the thickness of the vapor-deposited film is in the range of 100 to 1000 angstroms. The thickness of the protective layer is in the range of 0.2 to 3 μm.

[0007]

According to the constitution of the present invention, the visible light reflectance of the magnetic tape is 10% or less, whereas the visible light reflectance of the vapor deposition film made of the metal thin film of the leader tape is 70% or less.
Since it is significantly higher than%, it is possible to detect the beginning and end of the magnetic tape by the difference in light reflectance. Furthermore, since a protective layer with a thickness of 0.2 to 3 μm is provided on the vapor-deposited film, it can be used as a leader tape with only the vapor-deposited film on the film or a leader tape with a lubricant on the vapor-deposited film. In comparison, the leader tape of the present invention is remarkably excellent in running property and durability when running in the tape cassette, and does not generate shavings when the leader tape slides on the guide post in the tape cassette. , So dropouts and error rates do not increase.

[0008]

EXAMPLES Examples of the present invention will be described below.

In the present invention, as the non-magnetic film,
Polyesters such as polyethylene terephthalate and polyethylene naphthalate, and plastic films such as polyimide are used. The total thickness of the leader tape is in the range of 5 μm to 30 μm.

The leader tape of the present invention has an aluminum or chromium vapor deposition film provided on the non-magnetic film,
The thickness of the deposited film is in the range of 100 to 1000 angstrom. If the thickness of the vapor deposition film is smaller than this range, the strength of the film will be weakened.Therefore, the vapor deposition film will peel off from the non-magnetic film while running in the tape cassette or deck, increasing the dropout and error rate. Occurs. Further, if the thickness of the vapor deposition film is thicker than the above range, the bending rigidity of the leader tape becomes too high, and it becomes difficult to bend, so that the tape guides, guide rolls, guide posts, etc. in the tape cassette are damaged and powdered. Also, there arises a problem that the dropout and the error rate increase.

In the leader tape of the present invention, a protective layer made of a resin is provided on the vapor-deposited film in order to improve the running property and durability with respect to the tape cassette. As a resin,
Polyurethane or polyester resin can be used. Further, a sliding aid and an abrasive may be mixed in these resins. The thickness of the protective layer is preferably in the range of 0.2 to 3 μm. When the thickness is smaller than this range, the strength of the protective layer is weakened, so that the protective layer is peeled off from the vapor deposition layer, resulting in a problem that dropout and an error rate increase. If the thickness of the protective layer is thicker than the above range, the light reflectance will decrease.

The leader tape of the present invention must have a light reflectance of 70% or more over the entire length and length thereof. This is because in the high-speed search mode, the tape speed becomes faster than in the reproducing mode, and therefore, by extending the portion where the light reflectance is 70% or more, it is possible to prevent the start / end detection failure by the sensor of the magnetic recording device. is there.

The length of the leader tape is the same as that used in a normal audio cassette or video cassette, and is in the range of 100 mm or more and 400 mm or less.

One embodiment of the leader tape according to the present invention is shown in FIG. Reference numeral 1 is a leader tape of the present invention, 1a is a non-magnetic film made of polyethylene terephthalate having a thickness of 15 μm, 1b is a vapor deposition layer made of a chromium vapor deposition film having a thickness of 600 Å, and 1c is a thickness of 1 μm.
m is a protective layer made of a polyester resin.

The magnetic tape 2 is connected to the leader tape of the present invention by the splicing tape 3. (Fig. 1)
Then, the example in which the vapor deposition layer 2b and the magnetic layer 2a are arranged on opposite sides is shown, but the invention is not limited to this, and they may be provided on the same side.

A magnetic tape to which a leader tape having a length of 300 mm according to the present invention was connected was put in a commercially available audio compact cassette to prepare a tape cassette.

The magnetic recording device detects the beginning and end of the magnetic tape by the difference in reflectance between the leader tape and the magnetic tape, using a light emitting diode and a phototransistor provided on the side of the anti-magnetic head. With the tape cassette using the leader tape of the present invention, as a result of repeating the test 100 times, it was possible to detect the beginning and end of the magnetic tape 100 times. Furthermore, as a result of the error rate measurement, the error rate was a good result of 5 × 10 ⁻⁵ , which shows that the effect of the present invention is remarkable.

(Comparative Example 1) Using a conventional magnetic tape to which a leader tape is connected, a magnetic tape is put in a commercially available compact cassette to prepare a tape cassette, and as in the case of (Example), detection of the beginning and end of the magnetic tape and an error rate are performed. Was measured.
As a result, the start and end of the magnetic tape could not be detected at all as a result of repeating the test 100 times.
Furthermore, the measurement result of the error rate was a very bad result of 5 × 10 ^-2 .

(Comparative Example 2) A tape cassette was prepared by placing a metal thin film on a conventional film and inserting it into a commercially available compact cassette using a magnetic tape to which a leader tape top-coated on the metal thin film was connected. Similar to the example), the start and end of the magnetic tape were detected and the error rate was measured. As a result, the start and end of the magnetic tape were detected 100 times as a result of repeated tests, but the error rate measurement result was a very bad result of 5 × 10 ^-2 .

[0020]

As described above, according to the leader tape of the present invention, it is possible to reliably detect the beginning and end of the magnetic tape based on the difference in light reflectance with the magnetic tape. further,
The runnability and durability of the leader tape with respect to the tape cassette have been significantly improved compared to conventional leader tapes, so it is possible to suppress the increase in error rate and dropout, and to significantly improve the product quality. .

[Brief description of drawings]

FIG. 1 is a side view of a leader tape according to an embodiment of the present invention.

[Explanation of symbols]

 1 leader tape 2 magnetic tape 3 splicing tape

Claims (5)

[Claims] 1. A leader tape for magnetic tape, which has a visible light reflectance of 70% or more. 2. A leader tape comprising a non-magnetic base film provided with a vapor deposition layer made of a metal thin film, and a protective layer made of a resin provided on the vapor deposition layer, wherein the vapor deposition layer has a thickness of 100 to 1000 angstroms. 2. The leader tape for magnetic tape according to claim 1, wherein the protective layer has a thickness of 0.2 to 3 μm. 3. The leader tape for a magnetic tape according to claim 1, wherein the metal thin film is aluminum or chromium. 4. The leader tape for magnetic tape according to claim 1, wherein the vapor deposition layer and the protective layer are provided continuously over the entire length of the leader tape. 5. The leader tape for magnetic tape according to claim 1, wherein the protective layer is a polyurethane or polyester resin.