KR910000955Y1 - Tape tention regulation apparatus - Google Patents

Abstract

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Description

Tape tension adjustment device of small VTR

1 is an exploded perspective view of the present invention.

2 is a plan view of the deck mechanism used in the present invention.

3 is a partial cross-sectional view showing a power transmission system of the present invention.

Figure 4a, b is an operating state of the present invention.

* Explanation of symbols for main parts of the drawings

1: tension base 2: rectangular groove

3: rail 4: tension arm

7: compression spring 8: tension spring

13: Operation lever 14: Operation pin

15: Cam Plate

The present invention relates to a tension control device for giving a tension to a tape which is drawn at the same time as a pole base pulls out a tape and runs a loading path in a mechanism using a small VTR or digital audio tape. The tension arm used in the conventional VTR is tensioned to the tape on which the tension pole of the tension arm is moved when the pole base moves along the loading path while the pole base is in contact with the pole base by the force of the torsion spring installed on the rotating part thereof. In case of unloading, there is no separate device for driving the tension arm by contacting the full base and restoring it.

In addition, as the deck is downsized, the distance between the drum and the tape is also shortened, resulting in a smaller space for the tension arm to move, which prevents the tension arm from performing the proper tension adjustment of the tape. There is a risk of the tape being damaged due to no change in the tension arm.

Therefore, an object of the present invention is to make the tension adjustment more finer by making the tension arm stretchable.

In order to achieve this purpose, a rectangular groove is formed in the longitudinal direction of the tension base, and a “凹” rail is formed on both sides of the rectangular groove to insert a tension arm with a tension pole to connect the spring to the tape. Cam sliders are driven left and right by using cam curves of ding cam gears, and a round actuating lever for transmitting this driving force to the tension arm is provided.At the left and right rotations of the actuating lever, the fixing pins on the bottom of the tension arm come into contact with the tape. According to the accompanying drawings, the present invention provides a device for giving tension to a tape at the moment when the U-shaped loading is completed.

That is, FIG. 1 is an exploded perspective view of the tension arm drive device according to the present invention, and at one end of the tension base 1, a rectangular groove 2 is formed in the longitudinal direction, and both sides of the rectangular groove 2 are formed. Has a "凹" type rail (3) to couple the tension arm (4) to it, and a compression spring (7) is connected between the tension arm (4) and the tension base (1). At the other end of the tension base 1, tension springs 8 fixed to the chassis of the device are installed, and the tension base 1 is configured to be retracted with the stud 9 as an axis.

In addition, the tension bend assembly 11 is assembled in the tension bend hole 10 provided outside the rectangular groove 2 of the tension base 1, and the tension bend assembly 11 is a bend for controlling the supply rail (A). In connection with 11a, it is used to prevent loosening or twisting of the tape.

On the other hand, in the fixing pin 6 cocked to the bottom of the tension arm 4 described above, the rounded surface 13a of the end of the round operation lever 13 which is built up on the stud 12 fixed to the deck chassis and rotates left and right. ) And the operating pin 14 fixed to the bottom of the other end of the operating lever 13 is inserted into the elongated guide groove 16 of the cam plate 15 to the power of the loading motor (not shown). As the master cam 18 is rotated, the cam slider 15 which moves horizontally from side to side as the master cam 18 moves left and right while being guided by the guide pin 17 moves the operating lever 13 left and right to rotate the tension arm. The length of (4) is extended and reduced.

2 is a plan view of the deck mechanism used in the present invention, and is shown as a dotted line of power transmission of the loading motor.

As described above, when the master cam 18 is rotated when the driving motor is driven, one side of the cam pin 19 of the cam plate 15 is inserted into the cam curve 18a of the master cam 18 so that the cam plate 15 is rotated. Is moved clockwise around the stud 12 due to the operation pin 14 inserted into the long guide groove 16 formed at the other end of the cam plate 15 as the linear movement to the left or right. As it rotates, the fixing pin 6 of the tension arm 4 hanging on the end round surface 13a of the operating lever 13 is connected and slides. The force at this time is the compression spring of the tension arm 4 The length of the tension base 1 is extended by the elastic force of 7).

That is, the tension arm 4 elastically changes the length of the tension arm 4 along the “凹” rail 3 of the rectangular groove 2 of the tension base 1 to give tension to the tape.

On the other hand, Figure 3 is an assembly cross-sectional view of the mechanism in the order of power transmission system according to the present invention.

That is, the cam pin 19 of the cam plate 15 is inserted into the cam curve 18a of the master cam 18 and the guide fixed to the deck 20 in the rectangular guide groove 16 of the cam plate 15. The pin 17 is fitted and the actuating pin 14 of the actuating lever 13 is fitted into the elongated guide groove 16 of the cam plate 15.

In addition, it is configured such that the fixing pin 6 of the tension arm 4 is in contact with the inner end of the round surface (13a) of the operating lever (13).

In the drawings, reference numeral 21 denotes an FE head, 22 denotes a guide roller, 23 denotes a camstan shaft, 24 denotes an A / C head, 25 denotes a stopper, 26 denotes a drum, and 27 ) Is the loading arm, 28 is the loading gear, and 29 is the pole base. Referring to the operation and effect of the present invention configured as described above, when the master cam 18 is rotated in the clockwise direction by the loading motor as shown in Figure 4a, b during the loading of the master cam 18 Since the cam pin 19 of the cam plate 15 moves along the cam curve 18a according to the shape of the cam curve 18a formed to be biased to one side from the central axis, the cam plate 15 moves in the left direction, that is, the arrow A direction. Pushed to move.

Therefore, as the operation pin 14 in the elongated guide groove 16 formed at the left end of the cam plate 15 is pushed, the operation lever 13 is rotated clockwise, so that the round end surface 13a of the end lever of the operation lever 13 is rotated. The tension arm (4) inserted into the “접촉” type rail (3) of the rectangular groove (2) of the tension base (1) is compressed as the fixing pin (6) of the tension arm (4) contacts and slides. The length is extended by the spring force of the spring 7.

At this time, when the compression spring 7 connected between the tension base 1 and the tension arm 4 is completely tensioned, the force is weakened, so that the tension base 1 adjusts the tape tension as shown in FIG.

This adjustment causes the force of the compression spring 7 and the tension bed 11a to balance the tape back tension.

However, in the unloading state, as the master cam 18 rotates counterclockwise, that is, counterclockwise, the cam plate 15 of the cam plate 15 moves in the “B” direction, and thus the cam plate 15 moves to the right. As the actuating pin 14 of the actuating lever 13 is pulled by the long guide groove 16, the fixing pin 6 of the tension arm 4 is placed on the rounded surface 13a of the end of the actuating lever 13. The hanging tension arm (4) is pushed inward by riding the rail (3) formed in the rectangular groove (2) of the tension base (1) to reduce the length of the tension base (1) to restore the tension arm (4). will be.

As described above, the present invention relates the tape back tension control directly to the tension base, so that the longer the length of the base, the smaller the tension is sensitively changed by the moment force, and thus the jitter is greatly affected by the tension change. By improving the image quality, even if the deck is downsized, the performance does not decrease.

Claims (1)

One end of the tension base 1 is provided with a rectangular groove 2 in the longitudinal direction and a rail 3 at its inner surface. The tension arm 4 is coupled to the compression spring 7 to connect the tension base 1. The operation pin of the round operation lever 13 is formed in the long guide groove 16 formed at one end of the cam plate 15 driven by the loading motor and the master cam by the tension spring 8 being installed at the other end. As the 14 is inserted, the fixing pin 6 of the tension arm 4 is brought into contact with the round surface 13a of the operating lever 13, thereby changing the spring force of the compression spring 7 to slide the tension arm ( 4) Tape tension adjustment device of small VTR, characterized by the configuration to extend or reduce the length of 4).