KR850002942Y1 - Signal pick up device - Google Patents

Abstract

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Description

Pickup Arm Support Mechanism

1 is a partial cross-sectional plan view showing an embodiment of the pickup arm support mechanism according to the present invention together with the signal pickup device to which they are applied.

2 is a longitudinal sectional view taken along line II-II of FIG.

Figure 3 is an exploded perspective view of one embodiment of the pickup arm support mechanism according to the present invention.

Figure 4 is an enlarged view showing the operating state of the main part of the subject innovation mechanism when the pickup arm rotates.

* Explanation of symbols for main parts of the drawings

1: signal pickup device 2: video disk

3: housing 4: regeneration needle

5: pickup arm 6: tracking control drive unit

7 jitter compensation coil 9 rubber support member

9a: cylindrical part 9b, 9c: female part

9b _-1 , 9c _-1 : thin part 9b _-2 , 9c _-2 : small diameter part

10: cartridge case 10c, 10d: cutout

11: permanent magnet piece

The present invention relates to a pick-up arm support mechanism, and in particular, a small diameter portion is formed in an elastic arm portion that elastically supports the base side of the pick-up arm, thereby regulating a section in which it is elastically deformed, and the performance of the signal pickup device due to an imbalance during assembly. An object of the present invention is to provide a pickup arm support mechanism that eliminates the degradation.

The present applicant is a signal pickup device for a video disk that performs tracking control operation and jitter compensation operation. The permanent magnet piece is attached to the base side of the pickup arm to elastically support this part, and the tracking control in relation to the permanent magnet piece is performed. The apparatus of the structure which installed the drive mechanism and the jitter compensation drive mechanism was proposed. In this signal pick-up apparatus, the mechanism for elastically supporting the base side of the pick-up arm is a fixing member for the front end side of each arm part of the rubber member, which is composed of a part holding the pick-up arm and an arm part extending from the left and right sides thereof. The cartridge case is configured to be highly fixed. Here, by the tracking control and the jitter compensation operation, the vibration of the disk surface, and the like, the rubber arm portion is repeatedly elastically deformed in accordance with the movement of the pickup arm when the pickup arm is reciprocally rotated and linearly moved within a small range. Here, the frequency characteristic of the signal pickup device is determined by the length dimension of the elastically deforming section in the rubber arm part.

Conventionally, in order to couple the arm portion to the case, there has been a configuration in which the arm tip end side is fitted into the cutout portion of the case and adhesively fixed to this portion with an adhesive. For this reason, when the adhesive is applied to the outside or the inside of the case, the length of the elastically deformed portion of the rubber arm portion is changed, and thus there is a problem that the frequency characteristics of the assembled signal pickup device are unbalanced. In addition, the rubber member is a seamless integrally molded article, but conventionally, since the whole is uniformly twisted, it has caused an imbalance in the natural frequency according to the method of bonding the fixed portion.

Therefore, the present invention solves the above-mentioned problems, by installing a small diameter portion in the middle of the elastic arm portion of the support member so that a large amount of torsion occurs in the small diameter portion, so that there is no twist from the small diameter portion to the outside, that is, elastic deformation does not occur Doing. Hereinafter, one embodiment will be described with reference to the accompanying drawings.

1 is a partial cross-sectional view showing an embodiment of the pickup arm support mechanism according to the present invention together with the signal pickup device to which they are applied, and FIG. 2 is a longitudinal cross-sectional view taken along the line II-II of FIG. Figure 4 is an exploded perspective view of one embodiment of the pickup arm support mechanism according to the present invention, Figure 4 is an enlarged view showing the operating state of the main part of the subject innovation mechanism when the pickup arm is rotated.

The signal pick-up apparatus 1 is assembled in the housing 3 which moves in the radial direction from the top of the video disk 2, and the tracks of the disk 2 in which the reproducing needle 4 rotates in the direction of arrow A are relative. Scanning to reproduce the information signal.

The signal pickup device 1 is composed of a pickup arm 5, a tracking control driver 6, a jitter compensation coil 7, a needle lifting coil 8 and the like. The pick-up arm 5 is held by inserting the base side into the cylindrical portion 9a of the rubber support member 9 and passing through the arm portions 9b and 9c protruding left and right from the cylindrical portion 9a. 10) It is elastically supported inside. In addition, a permanent magnet piece 11 is fitted to the base side of the pickup arm 5. The cartridge case 10 is fitted into the guide member 12, and in this state, the pickup arm 5 and the permanent magnet piece 11 are in a predetermined positional relationship with respect to the tracking control drive unit 6, and at the same time, regenerate. The metal ribbon 13 drawn out from the needle 4 is connected to the center conductor 15 of the resonator 14.

The tracking control drive section 6 is composed of one tracking coil 6a and a yoke assembly 6b, and is fixed to a base 16 that is screwed to the housing 3.

The rubber support member 9 has the tucked thin portions 9b- ₁ , 9c- _{1 at} the front end sides of the arm portions 9b, 9c notch 10c, the side walls 10a, 10b of the cartridge case 10. 10d), it is fixed by applying an adhesive to the part, and is caught between the side walls of the case. 9b- ₂ and 9c- ₂ are the small diameter part (the narrow part) which forms the principal part of this invention, and are formed in the left-right symmetrical position among the arm parts 9b and 9c, respectively. In the present embodiment, the small diameter portions 9b- ₂ and 9c- ₂ are located close to the cutout portions 10c and 10d which are the fixed portions of the arm portions 9b and 9c. Moreover, the small diameter portions 9b- ₂ and 9c- ₂ have a function of clarifying the end point of the elastically deformed section when the arm portions 9b and 9c are elastically deformed with the rotation of the pickup arm 5 as described below. Have.

4 shows the elastic deformation state of the arm parts 9b and 9c when the pick-up arm 5 is rotated by the action of the tracking control drive unit 6 in the disc reproducing mode. When the pick-up arm 5 rotates counterclockwise around the base side, the rubber arm portions 9b and 9c are bent as shown by the double-dot chain line. That is, a bending force acts on the base side of the arm portions 9b and 9c by the rotation of the cylindrical portion 9a, and it is transmitted toward the distal end side, but easily at the positions of the small diameter portions 9b- ₂ and 9c- ₂ . It will bend, and the transmission of the bending force to the tip side rather than the position will be virtually eliminated. Therefore, the arm portions 9b and 9c always have two small diameter portions 9b ₋ regardless of the imbalance in the application position of the adhesive between the tapped thin portions 9b- ₁ , 9c- ₁ and the cutouts 10c, 10d. ₂ , 9c _-2 ) will be bent. Therefore, the frequency characteristic of the support of the pick-up arm 5 in relation to the tracking control operation is always constant without the influence of the assembly imbalance.

In addition, the pick-up arm 5 is reciprocally displaced in the axial direction during the jitter compensation operation, but the rubber support member 9 at this time is the small diameter portions 9b- ₂ and 9c among the arm portions 9b and 9c as in the above case. The section between _-2 ) is bent and deformed. In addition, when the pickup arm 5 rotates in accordance with the vibration of the disk surface, the small diameter portions 9b- ₂ and 9c- ₂ are mainly twisted and deformed. That is, even in this case, the rubber support member 9 is elastically deformed regardless of the fixing position to the case 10.

Therefore, the frequency (resonance) characteristics of the pick-up arm 5 support mechanism directly affecting the performance of the signal pick-up apparatus are uniformly determined without being influenced by the assembly imbalance, so that a signal pick-up apparatus with constant performance and the same quality is obtained. You lose. In addition, in the above embodiment, the small diameter portions 9b- ₂ and 9c- ₂ are V-shaped, but the present invention is not limited thereto, and the same effect can be obtained even when the shape is [].

As described above, according to the pickup arm supporting mechanism of the present invention, a small diameter portion is formed in the middle of the left and right elastic arm portions that elastically support the pressure, and the small diameter portion restricts a section in which the elastic arm portion elastically deforms at the time of arm displacement. Because of this configuration, the frequency characteristics of the pick-up arm system can be equally determined without being influenced by the imbalance of the fixing position with respect to the fixing member such as the case of the elastic arm part, and therefore the performance does not change even by the unbalance of the assembly. It has the advantage of obtaining a constant signal pickup device.

Claims (1)

A rubber support member comprising a cylindrical portion 9a for holding the base side of the pick-up arm 5 and elastic arm portions 9b and 9c extending from the cylindrical portion in left and right directions and fixed to the cartridge case 10. 9, according to which the pick-up arm holder, and the right and left elastic arm portions (9b, 9c) during a small diameter for restricting the resilient deformation of the left and right section in which the elastic arm portion at a displacement pick-up arm (9b of _-2, 9c _{- 2} ) a pickup arm supporting mechanism, characterized in that formed.