JPH0130232B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a reel stand drive mechanism for a tape recorder having a motor capable of forward and reverse rotation for driving the reel stand.

Conventionally, in tape recorders that have a dedicated motor for driving the reel stand independent of the motor for driving the capstan or flywheel, an idler is used to transmit drive during recording, playback, fast forwarding, and winding operations. I'm going through an intervention. The idler was always pressed against the drive wheel in order to reliably transmit the rotation of the drive wheel to the reel stand. If the idler is in constant pressure contact with the drive wheel in this way, when the tape recorder is not in use, that is, when the drive wheel is not rotating, the idler and drive wheel will be in pressure contact at one point, and the idler and drive wheel will be in pressure contact at this point. This method has the disadvantage that it causes deformation of the pressure contact surfaces of the idler and drive wheel, which adversely affects stable winding of the tape.

In addition, in the conventional system, in which a single motor drives the capstan, flywheel, and reel stand, the idler rotates in different directions for fast forwarding and rewinding, so a two-stage idler is required. Moreover, since the idler is forcibly oscillated, the structure is complicated and a large operating force is required, similar to the above-mentioned conventional device.

It is an object of the present invention to eliminate the various drawbacks of the prior art described above, to provide a tape that is simple in construction, automatically releases pressure contact force upon stopping, and does not require operating force for idler displacement. An object of the present invention is to provide a reel stand drive mechanism for a recorder.

The configuration of the present invention is that a drive roller that is rotationally driven by a motor is disposed between two reel stands of a tape recorder, and an arm is frictionally engaged to rotate following the rotational direction of the drive roller. an idler supporting plate is pivotally connected to the arm, and an idler having a diameter larger than the distance between the reel stand and the driving roller is attached to the idler supporting plate; , the idler is
In the reel stand drive mechanism of a tape recorder, the arm and the idler support plate are arranged and rotatably attached so as not to come into pressure contact with the drive roller when they are extended at least in a straight line.

Hereinafter, one embodiment of the present invention will be described based on the drawings.

A dedicated motor 1 for driving a reel stand is attached to a base 2, and a rotating shaft 1a of the motor 1 is located equidistant from reel stands 3, 3' rotatably mounted on the base 2. On the reel stands 3 and 3', reel shafts 3a and 3a' are rotatably engaged with support shafts 3b and 3b' via a friction plate 4 and a compression coil spring 5, respectively. That is, the reel shafts 3a, 3a' are urged by the elastic force of the compression coil spring 5, respectively, and are frictionally engaged with the reel stands 3, 3' via the support shafts 3b, 3b'.

A bearing body 6 is pivotally attached to the rotating shaft 1a of the motor 1 by frictional engagement, and an arm 7 is integrally engaged and attached to a stepped portion 6a formed on the outer peripheral surface of the bearing body 6. ing. Pin 7 is attached to one end of arm 7.
a is fixedly planted, and the idler support plate 9 is rotatably engaged with the pin 7a via the bearing body 8. A shaft 10 is fixed to the idler support plate 9, and an idler 11 is rotatably attached to the shaft 10. A rubber belt 11a for frictional engagement is attached to the outer circumference of the idler 11, and the diameter of the idler 11 is larger than the distance between the drive roller 12 fixed to the rotating shaft 1a and the reel stand 3 or 3'. , is arranged so that when the arm 7 and the idler support plate 9 extend in a straight line as shown in FIG. There is.

On the other hand, a bearing body 13 is rotatably engaged with the rotating shaft 1a by frictional engagement, and a regulating lever 14 is fixed to the bearing body 13. An engagement groove 14a is formed at one end of the regulation lever 14, and the engagement groove 14a is slidably engaged with the center portion of the shaft 10. The drive roller 12 described above is fixed to the rotating shaft 1a above the regulation lever 14. As shown in FIG. 3, when the idler 11 is in its original position separated from the reel stands 3 and 3', the idler 11 is separated from the drive roller 12 and the reel stand 3 or 3'.
In order to return the idler 11 to the original position by rotating the motor in the reverse direction from the displaced state in which it is in contact with the motor, if the regulation lever 14 is provided, the idler 11 can be quickly returned to the original position. Also,
The regulation lever 14 quickly regulates the displacement of the idler 11 so that it comes into contact with the reel stand 3 or 3'.
1 is wedged between the drive roller 12 and the reel stand 3 or 3', thereby helping to quickly perform forced pressure contact. Since the function of the regulation lever 14 is an auxiliary function as described above, the regulation lever 14 is not necessarily necessary.
The engagement groove 14a may be a long hole.

The action will be explained below.

When the rotating shaft 1a of the motor 1 is rotated in the X direction in FIG. 7a and the bearing body 8, the idler support plate 9 follows the rotation of the arm. Moreover, since the pin 7a and the bearing body 8 are frictionally engaged, a frictional force is generated between them, so that the idler support plate 9 quickly follows the rotation of the arm 7. As a result, the idler 11 comes into pressure contact with the drive roller 12 and the reel stand 3 almost simultaneously between the drive roller 12 and the reel stand 3, and the rotational force of the drive roller 12 is transmitted to the reel stand 3. In this state, the arm 7 and the idler support plate 9 are bent in a dogleg shape, and the rotational force of the drive roller 12 is transmitted to the reel stand 3 via the idler 11. Next, when the rotation of the drive roller 12 is stopped, no rotational force acts on the am 7 and the idler support plate 9, so the engagement between the drive roller 12, idler 11, and reel stand 3 is released, and these members are subjected to pressure contact force. Stops when it comes into contact with something that is not present. Therefore, there is no need to provide a special pressure release mechanism in the stopped state.

Furthermore, when the rotating shaft 1a is rotated in the y direction (Y direction), the idler 11 comes into pressure contact with the drive roller 12 and the reel stand 3, and the rotational force is transmitted to the reel stand 3'. When the rotation of the reel stand 3' is stopped, the rotation of the reel stand 3' is stopped in the same manner as described above.

It goes without saying that instead of the dedicated motor 1 for driving the reel stand, the rotating shaft 1a may be configured to be rotated by a conventional capstan drive motor via a belt or a wheel train (not shown). be.

As described above, according to the present invention, the configuration is extremely simple, and the pressing force of the idler is automatically released when the rotating shaft is stopped, so deformation of the idler and drive roller can be prevented. In addition, there is an effect that no operating force is required to displace the idler.

[Brief explanation of drawings]

FIG. 1 is a side view of the reel stand drive mechanism of the present invention;
FIG. 2 is a perspective view of essential parts of the present invention, FIG. 3 is a plan view of the present invention, and FIG. 4 is a plan view showing the idler of the present invention in a pressed state. 1...Motor, 2...Base, 1a...Rotating shaft, 3,
3'... Reel stand, 6... Bearing body, 7... Arm, 9...
Idler support plate, 8...bearing body, 11...idler,
12...Drive roller.

Claims (1)

[Claims] 1 A drive roller rotated by a motor is disposed between two reel stands of a tape recorder, and an arm is frictionally engaged to rotate following the rotational direction of the drive roller. The arm is pivoted coaxially with the drive roller, and further includes an idler support plate pivotally attached to the arm, and an idler having a diameter larger than the distance between the reel stand and the drive roller is attached to the idler support plate. and the idler support plate extend in a straight line or when the rotation is stopped, the idler is arranged so as not to come into pressure contact with the drive roller and is rotatably attached to the reel stand drive mechanism of a tape recorder. .