JPH0423334B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a tape start/end detecting device for a cassette type magnetic recording/reproducing device for recording and reproducing audio signals and video signals.

Magnetic recording and reproducing device (hereinafter referred to as "VTR")
A conventional example of a cassette-type magnetic tape start/end detecting device will be described below.

FIG. 1 shows the structure of one end of the magnetic tape. That is, the back surface 3 on the side opposite to the magnetic surface 2 at the end of the magnetic tape 1 and one end of a transparent polyethylene film 4 are connected with an adhesive tape 5, and the other end of the polyethylene film 4 is connected to the reel hub 6 in the cassette. It is fixed. Then, the polyethylene film 4 and the magnetic tape 1 are attached to the reel hub 6.
As shown in FIG. 2, they are wound as a supply reel 8 and a take-up reel 9 in the cassette 7, respectively.

Figure 2 shows the situation when using a VTR. Pull out the magnetic tape 1 that is passed between the tape guides 10 and 11 in the cassette 7, and remove the magnetic tape 1 from the tape guide 1.
2 and 13, the magnetic tape 1 is wound around a rotary drum device 19 equipped with rotary heads 17 and 18 for recording and reproducing desired video signals on the magnetic tape 1 through a rotary guide 14, an erasing head 15, and a tape guide 16. , audio control head 2
1. It passes through the capstan 22. This forms a magnetic tape running path. A running drive device 24 is constructed by pressing the pinch roller 23 against the capstan 22 to sandwich the magnetic tape 1, and rotates the capstan 22 to run the magnetic tape 1 in the direction A of the arrow.

A light emitting diode 25 and a phototransistor 26 facing the light emitting diode 25 are arranged on both sides of the magnetic tape 1 in a running path portion near the tape guide 10 . When using a VCR,
Although the light emitting diode 25 emits light when energized, the magnetic tape 1 blocks the light reaching the phototransistor 26, so the phototransistor 26 is in an off state.

Now, as shown in FIG. 3, when the magnetic tape 1 wound around the supply reel 8 is completely unwound and its end passes between the light emitting diode 25 and the phototransistor 26, the gap between the two is now A transparent polyethylene film 4 will be running.
Then, the phototransistor 26 receives light passing through the polyethylene film 4 from the light emitting diode 25 and turns on, thereby detecting the end of the magnetic tape 1. In response to this detection signal, the pressure of the pinch roller 23 on the capstan 22 is released, and the rotation of the rotary heads 17 and 18 is stopped. Therefore, the running of the magnetic tape 1 is stopped, and the recording or reproducing operation of the video signal is also stopped. The above is the end detection operation of the magnetic tape 1 wound around the supply reel 8.

On the other hand, when the magnetic tape 1 wound on the take-up reel 9 is rewound onto the supply reel 8, a light-emitting diode and a phototransistor (both not shown) provided on the take-up reel 9 side as described above are used. , the end of the magnetic tape 1 wound on the take-up reel 9 is detected, and the rewinding operation of the VTR is stopped, for example, to determine the start end of the magnetic tape 1.

In such a conventional start/end edge detection device, in the production process of the cassette 7, the connection end surface of the magnetic tape 1 and the polyester film 4 is cut with high precision,
They are required to butt each other and connect with adhesive tape 5. That is, in the process of connecting the magnetic tape 1 and the polyethylene film 4, if the magnetic tape 1 and the polyethylene film 4 are connected with a gap 27 between them as shown in FIG. , fine dirt, dust, etc. from the environment in which the VTR is used will adhere to the gap 27, increasing dropouts at the beginning and end of the magnetic tape 1, and significantly deteriorating the reproduced image quality.

Further, the adhesive tape 5 needs to be placed inside the magnetic tape 1 and the polyethylene film 4 in the width direction and bonded together, as shown by the solid line in FIG. Otherwise, a portion of the adhesive tape 5 will protrude in the width direction as shown by the dashed line, and dirt, dust, etc. will adhere to the protruding adhesive tape 5 as described above, increasing dropouts.

After all, in the above conventional method, in the process of producing cassettes, not only is a process of connecting the magnetic tape 1 and the polyethylene film 4 required, but also high precision is required for the adhesion positioning of the adhesive tape 5. This has the disadvantage of making the process very complicated.

SUMMARY OF THE INVENTION An object of the present invention is to provide a magnetic tape start/end end detecting device which eliminates the above-mentioned conventional drawbacks and can omit the step of connecting the magnetic tape and polyethylene film in the cassette production process.

In order to achieve this object, the present invention provides a magnetic tape coated with a conductive magnetic thin film layer, a starting end or a terminal end of the magnetic tape being locked so that the magnetic tape can be wound, and the magnetic tape being able to be wound. a tape reel that is electrically connected to the magnetic thin film layer at the starting end or end of the tape; a reel shaft that rotatably supports the tape reel and is electrically connected to the tape reel; and a tape reel that is unwound from the tape reel. a tape guide that contacts the magnetic thin film layer of the magnetic tape, forms part of the tape running path, and is electrically connected to the magnetic thin film layer; a running drive device for the magnetic tape; During running, an electric circuit is formed between the tape guide and the reel shaft, and the electrical resistance of the magnetic thin film layer of the magnetic tape is detected between the tape guides and the reel shaft, and when this electrical resistance becomes smaller than a certain value, the running A magnetic tape electrical resistance detection circuit is provided to issue a stop signal to the drive device.

Therefore, according to this configuration, in the cassette production process, it is not only possible to omit the process of bonding a transparent film such as polyethylene to the beginning and end portions of the magnetic tape, but also it is possible to prevent an increase in dropouts caused by the bonding process, thereby improving the cassette production process. It is possible to improve the playback quality of a type VTR.

Examples of the present invention will be described above with reference to FIGS. 6 to 12.

FIG. 6 is a cross-sectional view of a magnetic tape 31 according to the present invention, in which one side of a polyethylene terephthalate film 32 with a thickness of about 10 μm is coated with a conductive magnetic material such as Co or Ni.
A magnetic thin film layer 33 with a thickness of about 0.1 μm is formed.

FIG. 7 shows a vacuum evaporation apparatus which is a manufacturing apparatus for such a magnetic tape 31. As shown in FIG. Feeding roller 34
Polyethylene terephthalate film from 32
is guided around the outer periphery of the roller 35 rotating in the direction of the arrow B, and then wound up by the take-up roller 36.
When a magnetic material 37 such as Co or Ni is heated near the roller 35, the magnetic material 37 is evaporated into vapor 38, which is coated on the surface of the film 32. Thereafter, by cutting this film 32 into desired dimensions, the magnetic tape 31 is completed. In addition to the above-mentioned vacuum evaporation method, common magnetic tape manufacturing methods include a method of applying a magnetic material together with an adhering medium, a plating method, a sputtering method, and the like.

Next, FIG. 8 shows a magnetic tape 3 based on the present invention.
1 shows the relationship between the length and the electrical resistance of the magnetic thin film layer 33. As is clear from FIG. 8, a proportional relationship is established between the two, and the magnetic tape 31
As the length of the magnetic thin film layer 3 increases, the length of the magnetic thin film layer 3 increases.
The electrical resistance of No. 3 also increases.

FIG. 9 is a diagram showing a schematic configuration of an embodiment of the present invention. In FIG. 9, the same members as in FIG. 2 are designated by the same numbers to avoid redundant explanation. supply reel 41
A tape guide 42 is provided outside the cassette 7 near the tape guide 42, which contacts the magnetic thin film layer side of the magnetic tape 31 and forms part of the running path. Also, a tape guide 42 is provided near the output side of the rotating drum device 19.
A tape guide 43 having the same configuration is provided.

A magnetic tape electrical resistor 44 forms an electrical circuit between the tape guide 42 and a reel shaft, which will be described later, and detects electrical resistance between a portion of the magnetic tape 31 that contacts the tape guide 42 and its terminal end. It is a detection circuit. This detection circuit 44 is connected to the magnetic tape 3.
If the electric resistance in the first running state becomes smaller than a certain value, a stop signal is outputted to release the pinch roller 23 from pressing against the capstan 22.

The configuration of the tape guides 42 and 43 will be explained in detail with reference to FIG. 10. At the top of the tape guides 42 and 43, there are provided a magnetic tape contact surface 45 for contacting and guiding the magnetic thin film layer side of the magnetic tape 31, and flanges 46 and 47 for regulating the running height position of the magnetic tape 31 on both upper and lower sides thereof. is formed. Further, at the bottom thereof, there is a connection fixing part 50 connected to one end 48 on the input side of the electrical resistance detection circuit 44, and
A fixing screw portion 52 to the substrate 51 is formed. 53 and 54 are spacers for insulating the tape guides 42 and 43 and the substrate 51, and 55 is a tightening nut.

The surface of the magnetic tape contact surface 45 is particularly precisely processed to ensure stable contact with the magnetic thin film layer of the magnetic tape 31. Further, the contact surface 45, the collar portions 46, 47, the wire connection fixing portion 50, and the threaded portion 52 are integrally formed of stainless steel or the like.

11 and 12 show the reel hub 5 of the supply reel 41 and take-up reel 56 in FIG.
This is an enlarged view of 7 parts. both reels 4
1 and 56 have the same structure. reel hub 5
7 includes a circular central member 58 and this central member 58.
a pair of crescent-shaped concave members 59 that are externally fitted and fixed to the
A, 59B. 60 is a screw for tightening the concave members 59A and 59B, and 61 and 62 are abutting portions between the concave members 59A and 59B. The members 58, 59A, and 59B are each made of a conductive material such as aluminum. The ends of the magnetic tape 31 are sandwiched and attached to the butt portions 61 . Concave member 59A, 5
The outer surface of the magnetic tape 9B is a cylindrical winding surface 63A, 63B for winding the magnetic tape 31.

64 is a claw portion that engages with the reel stand 65 on the VTR side and transmits driving force to the reels 41 and 56, and is made of acrylic material or the like, and is attached to the lower tape reel flange 66.
The central member 58 is integrally formed with the central member 58 and is adhesively fixed to the lower surface of the central member 58. On the other hand, 67 is an upper tape reel flange having a projection 68 formed at the upper center thereof, and is adhesively fixed to the upper surface of the central member 58. The lower surface 69 of the central member 58 has a concave shape in which the central portion is recessed upward, and is rotatably contacted by the tip of the reel shaft 70 on the VTR side, so that the reel 41,
The rotational height position of 56 is regulated and supported. Reference numeral 71 denotes a pressing member installed in the cassette 7, and by pressing the protrusion 68 downward, the center of the lower surface 69 of the central member and the tip of the reel shaft 70 are brought into stable contact.

The ends of the magnetic tape 31 and the reel shaft 70 are brought into electrical continuity via the concave members 59A, 59B and the central member 58. The reel shaft 70 is connected to the magnetic tape electrical resistance detection circuit 4.
A wire connection 73 is connected to the other end 72 on the input side of 4.

According to the above configuration, when the VTR is used, that is, when the magnetic tape 31 is running, the supply reel 4
When the amount of the magnetic tape 31 wound around the magnetic tape 31 is large, the electrical resistance detected by the detection circuit 44 becomes a very large value because the magnetic tape 31 is long. In such a case, pinch roller 2
3 is pressed against the capstan 22, and the magnetic tape 3
1 running is maintained.

As the amount of the magnetic tape 31 wound around the supply reel 41 decreases and the end of the magnetic tape 31 approaches, the electrical resistance detected by the detection circuit 44 will eventually decrease due to the shortening of the magnetic tape 31. below a certain value. As a result, the detection circuit 4
4, a stop signal is sent to the signal line 74 to the pinch roller 23, the pressure of the pinch roller 23 on the capstan 22 is released, and the running of the magnetic tape 31 is stopped.

Note that when rewinding the magnetic tape 31 wound onto the take-up reel 56, the tape guide 43
An electric circuit similar to that described above is constructed between the reel shaft 70 of the take-up reel 56 and the end of the magnetic tape 31 during rewinding operation is detected.

As described above, according to the present invention, the cassette type
In a VTR, since the beginning and end of a magnetic tape can be detected without using a transparent film such as polyethylene, this transparent film can be omitted. Not only can a process be omitted, but an increase in dropouts caused by the bonding process can be prevented, and the quality of reproduced images of a cassette-type VTR can be improved.

[Brief explanation of drawings]

1 to 5 show conventional examples, FIG. 1 shows the edge of a magnetic tape, FIG. 2 shows the general structure of a VTR, FIG. 3 shows an end detection state, and FIG. 4
5 shows the position of the adhesive tape, FIGS. 6 to 12 show embodiments of the present invention, FIG. 6 is a cross-sectional view of the magnetic tape, and FIG. 7 is a diagram showing the position of the adhesive tape. Figure 8 shows the magnetic tape manufacturing equipment, Figure 8 shows the electrical resistance characteristics of the magnetic tape, Figure 9 shows the schematic configuration of a VTR, Figure 10 shows the tape guide, and Figure 11 shows the longitudinal section of the reel hub. The plan view and FIG. 12 are longitudinal sectional front views of the reel hub. 24...Traveling drive device, 31...Magnetic tape, 33
...Magnetic thin film layer, 41... Supply reel (tape reel), 42, 43... Tape guide, 44... Magnetic tape electrical resistance detection circuit, 56... Winding reel (tape reel), 70... Reel shaft.

Claims (1)

[Claims] 1. A magnetic tape coated with a conductive magnetic thin film layer, a starting end or a terminal end of this magnetic tape being locked so that the magnetic tape can be wound, and the magnetic thin film at the starting end or terminal end of this magnetic tape. a tape reel that is electrically connected to the tape reel, a reel shaft that rotatably supports the tape reel and is electrically connected to the tape reel, and a magnetic thin film layer of the magnetic tape that is unwound from the tape reel. a tape guide that contacts and forms a part of the tape running path and is electrically connected to the magnetic thin film layer; a running drive device for the magnetic tape; and a tape guide and the reel shaft when the magnetic tape runs. a magnetic tape that forms an electric circuit with the magnetic tape, detects the electric resistance of the magnetic thin film layer of the magnetic tape between the two, and issues a stop signal to the traveling drive device when this electric resistance becomes smaller than a certain value. What is claimed is: 1. A tape start/end detection device for a magnetic recording/reproducing device, characterized in that it is equipped with an electric resistance detection circuit.