Friction type of power transmission mechanism for driving...

Winding – tensioning – or guiding – Unwinding and rewinding a machine convertible information... – With particular drive

Reexamination Certificate

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C242S356700

Reexamination Certificate

active

06431484

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a friction type of power transmission mechanism for driving a reel support in a videotape recorder (hereinafter abbreviated as VTR). In the VTR the tape-driving power is transmitted from the capstan motor to the reel support via the follower pulley, which is sandwiched and clamped between a base disk and an annular plate.
2. Related Arts
FIG. 5
illustrates the VTR as viewed from the bottom. As seen from the drawing, it uses a power transmission mechanism, in which the driving power is transmitted from the capstan motor
59
to either reel support via the clutch rotary mechanism, the friction type of power transmission mechanism
50
, the swing idler mechanism and a gang of gears and the reel gears associated with the reel support. The capstan motor
59
has a primitive pulley
60
fixed to its shaft, and the primitive pulley
60
is connected to the follower pulley
51
of the clutch rotary mechanism via the belt
61
.
When the VTR is loaded with a magnetic tape by pinching the tape between the capstan and the pinch roller, the VTR can be put in: the play mode in which the reel support is rotated in the tape-winding direction (tape being played back); the reversal mode in which the reel support is rotated in the tape-rewinding direction (tape being rewound); the fast feeding mode in which the reel support is rotated at an increased speed in the tape-winding direction (tape being played back quickly); and the rewinding mode in which the reel support is rotated at an increased speed in the tape-rewinding direction (tape being rewound quickly).
In the play mode and the reversal mode the clutch rotary mechanism is put in the disengagement condition in which the associated gears are disengaged from each other, thereby allowing the rotation of the capstan motor to be transmitted to the swing idler via the friction type of power transmission mechanism
50
. In the fast feeding mode and the rewinding mode the clutch rotary mechanism is put in the engagement condition in which the associated gears are engaged together, thereby allowing the rotation of the capstan motor to be transmitted directly to the swing idler.
Both in the play and reversal mode it is necessary that the tape be sandwiched between the capstan and the pinch roller, and that the tape be fed at a constant speed. The reel support which is driven by the capstan motor
59
via the belt, must be rotated at the speed dependent on the instantaneous diameter of the tape wound around the reel support. To meet this requirement the follower pulley
51
is equipped with the friction type of power transmission mechanism
50
(see FIG.
6
).
When the power is transmitted from the capstan motor
59
to the follower pulley
51
, the follower pulley
51
is rotated. The friction ring
52
permits the follower pulley
51
to slip in rotation, thereby feeding the tape at a constant speed independent from the varying diameter of the tape wound. The friction ring
52
adheres to the base plate
53
so that the flange surface of the follower pulley
51
may be put in friction contact with the base plate
53
, thus transmitting the rotary torque from the follower pulley to the base plate
53
, and hence to the reel support via the cam
55
and cap
56
, which are fastened to the cylinder axle
54
of the base plate
53
.
As seen from the drawing, the coiled spring
58
is sandwiched between the cap
56
and the spacer
57
, applying a predetermined two-dimensional or surface pressure to the friction ring
52
, thereby producing a predetermined amount of friction force. In general, the friction type of power transmission mechanism
50
produces the torque according to the following equation:
T=&mgr;N r,
where “T” stands for torque; “&mgr;” stands for friction coefficient; “N” stands for two-dimensional or surface pressure; and “r” stands for the mean diameter of the friction ring.
As is apparent from this equation, a desired strength of torque can be obtained by increasing the two-dimensional or surface pressure and/or the mean diameter of the friction ring. The increasing of the resilient strength of the coiled spring
58
and hence the two-dimensional or surface pressure to be applied to the friction ring, however, will cause abrasion both of the friction ring
52
and the follower pulley
51
, thus producing unstable torque at an early stage.
Alternatively the increasing of the mean diameter of the friction ring will cause the size of the friction ring
52
and hence the size of the whole mechanism to be increased accordingly. If any significant deformation of the follower pulley
51
and the base plate
53
should result from the lowering of the precision with which the parts are produced, the torque cannot be increased in proportion with the increasing of the mean diameter of the friction ring.
SUMMARY OF THE INVENTION
One object of the present invention is to provide a friction type of power transmission mechanism for driving a reel support in a VTR, which is free of the defects as described above, permitting stable torque transmission and extending its life.
To attain this object a friction type of power transmission mechanism for driving a reel support in a VTR wherein the power is transmitted from the motor to the reel support via the follower pulley, which is sandwiched and clamped between a base disk and an annular plate, is improved according to the present invention in that the follower pulley has a first friction ring sandwiched between the base disk and the lower flange surface of the follower pulley and a second friction ring sandwiched between the annular plate and the upper flange surface of the follower pulley, the diameter of the circular opening of one of said first and second friction rings being equal to or larger than the outer diameter of the other friction ring.
The base disk may have the first friction ring adhering to its upper surface, and the annular plate may have the second friction ring adhering to its lower surface. Otherwise, the follower pulley may have the first and second friction rings adhering to its opposite flange surfaces. These friction rings produce larger and smaller torques, which can be determined by substituting the larger and smaller radiuses for “r” in the equation: T=&mgr;N r; the other factors are of same quantities. With this arrangement the increased quantity of resultant friction force is available, and therefore, a good strength of friction force can be obtained even if the two-dimensional pressure is decreased to the extent of preventing the excessive abrasion of the friction rings. Also advantageously, the smaller friction ring has the same diameter as the circle of the larger friction ring, and therefore, the smaller ring can be produced from the circle which is stamped out of the larger circle to leave the larger ring. Thus, the remaining friction material which otherwise would be thrown away can be used to produce the smaller ring, thus requiring no extra material.
The follower pulley may have inner circular and outer annular sections at different levels, thus defining the stepwise transitions from the inner circular to outer annular section on the opposite sides of the pulley. This step-wise flange has the effect of preventing the total thickness of the pulley flange and the friction rings from increasing, and preventing the spreading of lubricating oil from the sliding parts to the friction section under the centrifugal force.
Other objects and advantages of the present invention will be understood from the following description of a friction type of power transmission mechanism for driving a reel support in a VTR according to one preferred embodiment of the present invention, which is shown in accompanying drawings:


REFERENCES:
patent: 3529787 (1970-09-01), Bowman et al.
patent: 3938756 (1976-02-01), Katoh
patent: 4044868 (1977-08-01), Berger
patent: 5641130 (1997-06-01), Weisser
patent: 5735476 (1998-04-01), Kim et al.
patent: 5884858 (1999-03-01), Woo
patent: 6145769 (2000

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