JPS6135612B2 - - Google Patents

Description

[Detailed description of the invention] BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a web media running device.

Conventionally, when running a tape in a tape recorder of a reel-to-reel tape recorder, tape reels are placed on reel stands on the supply side and take-up side, respectively, and the tape reels are placed on the reel stands on the reel stand by the reel lock mechanism of the reel stand. Fixed. However, since the fixing of the reel to the reel stand (hereinafter referred to as reel lock) is done manually, the reel lock is often forgotten, and the reel lock may come off while the tape is running. When the tape is run with the reel unlocked, for example when the tape is fast forwarded or rewound, the reel usually rotates at high speed, causing large vibrations in the reel in the vertical and horizontal directions. . As a result, the tape may come into contact with the edge of the reel, or the winding state of the tape may be disturbed, resulting in significant damage to the tape. Furthermore, when the vibrations are severe, the reel may come off the reel stand, causing damage to the entire device.

The present invention was made in view of the above problems, and
To provide a strip medium running device in which a tape running drive circuit cannot be operated until a reel is locked on a reel stand.

An embodiment of the present invention will be described below with reference to FIGS. 1 to 9. FIG. 1 shows the reel stand, which is the main part of the main body of the device. It consists of a fixing bolt 8, a knob 9, a blind cover 10, a rod 11, a magnet 12 and a Hall element 13. The knob 9 is fixed on the rotating disk 3 and forms a knob. The rotating disc 3 is attached to a fixed washer 7 fixed to the shaft portion 14 of the reel hub 1 with a fixing bolt 8.
, the reel hub 1 is connected via the sliding washer 6.
The shaft 14 is rotatable around the shaft 14 by means of a sliding washer 6. A plurality of reel holding pieces 2 are arranged radially around the shaft portion 14, and are attached to the inner cylinder 15 and the outer cylinder 16 of the reel hub 1.
It is slidable in the radial direction guided by a stepped groove provided in the radial direction. In addition, the reel presser piece 2 is
It is biased by a spring 4 wound around a shaft portion 14 via a spring retaining ring 5 so as to come into contact with the rotating disk 3 . The rotary disk 3 has a plurality of protruding inclined surfaces 17 on the same radius from the center of the shaft portion 14 and inclined in the circumferential direction at a lower surface position corresponding to the reel holding piece 2.
, a plurality of erecting pins 18 , and a protruding flat surface 19 provided at a position near the shaft portion 14 on the inner side of these pins 18 . Further, the reel holding piece 2 has a protrusion 20 on its upper surface that contacts the protrusion inclined surface 17, and a cam groove 21 that engages with the pin 18. It is composed of a straight groove extending at a predetermined angle with respect to the tangential direction of the circular arc. Further, the reel presser piece 2 abuts the protrusion plane 19 on its upper surface 22, and between the position opposite to the protrusion plane and the protrusion 20, the reel presser piece 2 is held in contact with the spring presser ring 5 through the spring presser ring 5.
It is pressed upward by a spring 4. Rod 11
A plurality of connecting members are provided in the bottom part 23 of the spring 4 insertion part of the reel hub 1 so as to be slidable in the uniaxial direction of the reel hub. The upper end 24 of the rod 11 is inserted into a hole drilled in the spring holding piece 5 and is locked to the spring holding piece 5 by an E-ring 25. A ring-shaped magnet 12 disposed around the lower end protrusion 26 of the shaft portion 14 is fixed as a member to be sensed. Furthermore, the magnet 12 is slidable in the axial direction of the reel hub 1. Reference numeral 27 denotes the entire device board, which is naturally a non-rotating part. The Hall element 13, which is a sensor, is connected to the magnet 12.
At a certain distance (l ₁ ) from the magnet 12 at an appropriate position facing the
They are separated and fixed on the device main body board 27. The Hall element 13 is located at a distance l from the magnet 12.
The output voltage V changes depending on the change in the magnetic field, that is, the strength of the magnetic field. Further, as shown in FIG. 8, the output voltage from the Hall element 13 is configured to enter a comparator 29 via an amplifier 28, and information from the comparator 29 is input to a tape drive circuit 30. has been done. The comparator 29 compares the reference value (V ₀ ) input in advance with the input voltage from the amplifier 28 and outputs new information.

In the above configuration, as shown in FIGS. 3 to 7, the reel 31 is placed on the reel hub 1 of the reel stand, and the rotary disk 3 is rotated in the direction of the arrow 32 by the knob 9. Then, since the pin 18 moves on the same radius, the pin 18 slides on the straight part of the cam groove 21, and the tip of the reel presser piece 2 is pushed out to the outside of the reel hub 1, and the reel presser piece 2 pushes the reel hub 1 outward. The part near the axis of the reel is pushed toward the rotating disk 3 by the spring 4 via the spring holding piece 5, and the reel The tip of the presser piece 2 rotates downward to lock the reel 31. Furthermore, when the knob 9 is rotated, the reel presser piece 2 is pushed downward by the protruding inclined surface 17 of the rotary disk 3, and since its tip is in contact with the reel 31, this contact portion The reel presser piece 2 rotates using the reel presser piece 2 as a fulcrum, and the other end, that is, the contact portion between the reel presser piece 2 and the spring presser piece 5 is pushed down. Then, when the reel presser piece 2 moves downward, the rod 11 naturally
The magnet 12 is pushed down through the magnet 12, and the distance from the Hall element 13 becomes smaller, and as shown in FIG. 6, the distance becomes _l2 . In this way, when the distance between the magnet 12 and the Hall element 13 changes from l ₁ to l ₂ , the output voltage from the amplifier 28 changes from V ₁ to V ₂ as shown in FIG. That is, reel 3
When the reel 31 is not locked, the output voltage of the amplifier 28 is _V1 , and when the reel 31 is locked, the output voltage of the amplifier 28 is _V2 . Therefore, if the reference value (V ₀ ) input to the comparator 29 is set slightly lower than V ₂ , the comparator 29
This makes it possible to determine the locked state of the reel 31. That is, when the input voltage to the comparator 29 is smaller than the reference value (V ₀ ), the reel 31 is not locked, so the comparator 29 inputs information to the tape drive circuit 30 that the tape cannot run. If the input voltage to the comparator 29 is greater than the reference value (V ₀ ), the reel 31 is locked, and the comparator 29 inputs information to the tape drive circuit 30 that the tape can run. . In this manner, it is determined whether or not the tape can run by detecting whether or not the reel is locked. Note that the magnet and the Hall element are fixed to each part so as to be in a non-contact state at all times.

Next, another embodiment will be described based on FIGS. 10 and 11. This device is the same as that shown in FIG. 1, but uses a reflective photoelectric detection element (hereinafter referred to as photoelectric element) as a sensor for confirming the reel lock, and uses a ring-shaped reflective member as the member to be sensed. In other words, 33 is the main board 2
This is a photoelectric element attached to 7. Also, 34
is a ring-shaped reflecting member (hereinafter referred to as ring) for reflecting light from the light emitting part of the photoelectric element 33 to the light receiving part. The ring 34 is attached to the lower end of the rod 11, which moves in conjunction with the vertical movement of the reel holding piece 2, over the entire outer periphery of the protrusion 26 of the reel hub 1. In addition, the photoelectric element 33 and the ring 34
so that they face each other when the reels are locked,
When the reels are not locked, their positions are shifted so that they do not face each other.

In such a configuration, as shown in FIG.
When the reel 31 is not locked, the rod 11 does not move, so the ring 34 is located above the photoelectric element 33. Therefore, the light emitted from the light emitting part of the photoelectric element 33 is not reflected, so the photo transistor in the light receiving part is
It becomes OFF state. However, as shown in Figure 11,
When the reel 31 is in the reel-locked state, the ring 34 has moved to a position facing the photoelectric element 33. Therefore, the light emitted from the photoelectric element 33 is reflected by the mirror surface of the ring 34, and the light emitted from the photoelectric element 33 is reflected by the mirror surface of the ring 34.
The light enters the phototransistor of the light receiving section of the phototransistor, and the phototransistor turns on. In this way, the reel lock and unlock states of the reel are input to the tape running drive circuit as the ON and OFF states of the photo transistor of the light receiving section of the photoelectric element 33, and it is determined whether or not the tape can run.

Further, it goes without saying that both of the above embodiments are constructed so that even if the reel lock is released during tape running, the tape running will be in the stop mode.

As described above, according to the strip-shaped medium running device of the present invention, the tape does not run when the reel is not locked, so there is no damage to the tape due to reel vibration or disturbance in the winding state of the tape. The life of the tape can be extended. Further, even if the reel lock is released while the tape is running, the tape is automatically stopped, so the reel will not come off the reel hub, and damage to the main body of the device can be prevented. Furthermore, if a non-contact means is used as the reel lock confirmation detection means as in this embodiment, the life of the detection means will be semi-permanent, thereby increasing reliability.

It goes without saying that, in addition to the sensor described in this embodiment, a transmission type photoelectric detection element or a capacitance type sensor can also be used.

[Brief explanation of the drawing]

Fig. 1 is a partially cutaway perspective structural view of an embodiment of the present invention, Fig. 2 is an enlarged view of part A, Figs. 3 and 6 are sectional views of main parts, and Fig. 4 is B-- B arrow sectional view,
5 is a perspective view of essential parts of the lower surface of the rotating disk, FIG. 7 is a sectional view taken along the line CC in FIG. 6, FIG. 8 is a block diagram of essential parts of an embodiment of the present invention, and FIG. The figure shows a Hall element.
Graphs showing the relationship between the distance between the magnets and the Hall element output voltage, and FIGS. 10 and 11 are sectional views of main parts of other embodiments of the present invention. DESCRIPTION OF SYMBOLS 1... Reel hub, 2... Reel holding piece, 3... Rotating disk, 5... Spring holding piece, 11... Rod (connecting member), 12... Magnet (sensed member), 13... Hall element (sensor), 27... Device main body board, 28... amplifier, 29... comparator, 30... tape running drive circuit, 31... reel, 33... photoelectric element (sensor),
34...Ring (sensed member).

Claims (1)

[Scope of Claims] 1. A drive circuit for running a strip medium, a supply reel for supplying the strip medium, a take-up reel for winding the strip medium, and a drive circuit on which the take-up reel and the supply reel are respectively placed. and a reel stand for fixing each of the reels by a reel lock mechanism, wherein the supply reel and the take-up reel are fixed by the reel lock mechanism of the reel stand, so that a lock confirmation signal is generated. A belt-shaped medium traveling device characterized in that the traveling drive circuit for the belt-shaped medium is made operable by means for generating the confirmation signal. 2. Claim 1, characterized in that a sensor that generates a lock confirmation signal is provided on the main body board of the device, and a sensor member that is always located in a non-contact state with the sensor is provided on a connecting member that interlocks with the reel lock mechanism. The strip-shaped medium traveling device described in Section 1. 3. A Hall element is used as a sensor, a magnet is used as a member to be sensed, and a lock confirmation signal is obtained from the Hall element by changing the distance between the magnet and the Hall element when the reel is locked. A belt-shaped medium traveling device according to claim 2. 4 Using a reflective photoelectric detection element as a sensor,
A reflective member having a surface with good reflectance is used as the sensor target member, and a lock confirmation signal is obtained by changing the relative position between the reflective member and the reflective photoelectric detection element when the reel is locked. A belt-shaped medium traveling device according to claim 2. 5. The connecting member is composed of a rod that moves substantially perpendicular to the rotating surface in conjunction with the rotation of the knob for fixing the reel lock mechanism, and the sensed member is fixed to one end of the rod. A belt-shaped medium traveling device according to claim 2.