DE1003966B - Record groove scanner with at least two needles whose holders are externally damped - Google Patents

Description

GERMAN

The invention relates to a record groove scanner with at least two scanning needles, for example For normal and long-playing records that can be switched on or off and each attached to a resilient needle holder, the needle holder through the intermediary of a Anchors are connected to a common conversion element and the undesired movements the needle holder that is not in operation must be externally damped.

With such scanners it has been found that the needle holder that is not in operation, which is connected to the overall system as a body supported on one side, in vibrations when its resonance frequency is reached. Since energy is absorbed at this frequency, this is marked as a relatively sharp drop in the frequency characteristic of the groove scanner off and degrades playback.

In order to avoid this phenomenon as far as possible, it is already known to use the flexible needle holder to dampen externally, that this part with the mediation of an existing damping material Body is connected to the housing of the groove scanner. In this case, resonance vibrations occur on, these are greatly reduced by the damping material.

For example, a groove scanner is known in which the needle holder can be replaced on the actual one Sound box is attached, in such a way that the actual oscillatable needle holder supporting guide band by means of a plug and socket device consisting of a pin and socket the sound box is attached, that the needle holder between the poles of an induction system can swing. In this known embodiment, to dampen the needle holder vibrations, there is between the guide band and the needle holder a rubber stopper is provided. The damping material so is supported on the one hand against the housing, on the other hand against the needle holder.

With this arrangement of the damping, practically all vibrations of the needle holder are damped. Such a damping occurs in the case of vibrations that the needle holder carries out to the housing and back beneficial and also intended. The disadvantage here is that the transverse vibrations of the needle holder experience a damping, because these are the useful vibrations.

If this known method is used in grooved scanners with more than one needle, then must Undoubtedly, in all play positions of the grooved scanner, the needle holders that are not in operation are damped will. But that means that you can also practically

Record groove scanner with at least two needles, the holder of which is external

are muffled

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dipl.-Ing. K. Lengner, patent attorney,
Hamburg I ₁ Mönckebergstr. 7th

Claimed priority:
Netherlands 17 September 1953

Nico Wittenberg, Eindhoven (Netherlands),
has been named as the inventor

must provide the needle holder in operation with such a damping. Accordingly, at a damping body, which is supported against the housing, reduces the useful amplitude of the groove scanner.

The attachment of a damping body has the consequence that at the same time an additional rigidity of the Needle holder is introduced with respect to the system. Due to the rigidity of the needle holder compared to the housing of the groove scanner is determined, among other things, the force required to achieve a certain deflection of the needle must be exerted on it from the side. This power is with Playing tied to a certain limit, when exceeded the needle jumps out of the groove. This is prevented by the weight of the grooved stylus that the stylus is using on a wall or both Walls of the groove presses. If you now introduce a greater rigidity, in a known manner between the needle holder and the housing a damping body is provided, so is to achieve the With the same needle deflection, a greater tracking force is required. This means that the Scanner, which is linked to greater needle and plate wear.

In order to avoid this disadvantage, in a groove scanner according to the invention, the external Cushioning achieved by a body made of damping material, which is between the resilient Needle holder and the anchor is arranged. One of the two needle holders is in operation, the

609 838/190

the other ends free and is only held by the end facing away from the needle. The latter therefore represents a freely oscillating system, which has a natural frequency that corresponds to the one to be transmitted Frequency range. Is now the operational If the needle is driven at a frequency that corresponds to this natural frequency, this is what happens free-swinging needle holder system in resonance and would take a large part of the scanned by the record Absorb vibration energy if it is not dampened. At the same time, the in It would not be necessary to dampen the needle while it is in operation, but it does mean a significant simplification and no significant deterioration, since the needle in operation does not have any free resonance oscillations executes.

In a grooved scanner according to the invention, the overall rigidity of the needle is compared to the Housing essentially from the sum of the stiffnesses of the resilient needle holder, the armature and of the crystal in relation to its torsion axis. The first two stiffnesses must now be used for a rational effect of the groove scanner in relation to the last mentioned stiffness be great, and therefore, by introducing the new stiffness of the damper body, the overall stiffness becomes not particularly increased, because only the greatest rigidity due to the parallel connection of the Rigidity of the damping material is even greater and the smallest rigidity through which the achieved Amplitude is essentially conditioned, remains constant. Hence remains in spite of the appropriate The damping material also provides the force required for a specific lateral deflection of the needle approximately constant, while at the same time the resonance phenomenon described above is not a disturbing one Exercise more influence.

A rational structural solution results from the fact that the part of the anchor on which the The damping body is attached, consisting of a substantially extending in the direction of the resilient needle holder Extension exists.

The invention is described below using an exemplary embodiment shown in the drawing explained in more detail.

Fig. 1 is a cross section through a crystal groove scanner according to the invention from which

Fig. 2 is a front view with the front of the housing omitted.

In the figures, 1 denotes the housing of a crystal groove scanner which is equipped with two scanning needles 2 and 3 of which the former is in operation and the latter is inoperative. Both Needles, such as sapphires, are attached to resilient needle holders, such as the stylus 2 on the needle holder 4. The needle holder is in turn via the armature 5 with the common Crystal 6 connected. This crystal is clamped at the point 7 in the housing 1 and can through the anchor 5 are twisted about its center line 8, with its free end at the points 9 and 10 in the Housing is rotatably mounted. The rigidity of the entire groove scanning system is made up of the torsional stiffness of the crystal, based on the axis 8, and the stiffness of the armature 5 and the Needle holder, the latter two stiffnesses being much greater than the first mentioned Stiffness are. The movement of the needle holder is externally damped by the damping bodies 11 and 12, which are arranged between the resilient needle holders and the anchors 5 and 15. Here those parts of the armature to which the damping bodies 11 and 12 are attached are made of im substantially extending in the direction of the resilient needle holder extensions 13 and 14. Die The stiffnesses of the damping bodies 11 and 12 are only parallel to the greater stiffnesses of the flexible ones Needle holder, so that the lowest stiffness about the torsion axis 8 remains constant while however, any resonance of the free needle 3 is reduced by the damping material.

Claims (2)

Patent claims: 1. Groove scanner with at least two scanning needles that are alternately in or out of operation can be and are each attached to a resilient needle holder, the needle holder connected to a common conversion element through the intermediary of an anchor and the undesired movements of the needle holder not in operation are externally dampened are, characterized in that the external damping is achieved by a body of damping material between the flexible Needle holder and the anchor is arranged. 2. Groove scanner according to claim 1, characterized in that that part of the armature on to which the damping body is attached, from a substantially in the direction of the resilient Needle holder extending extension of the anchor consists. Considered publications:
U.S. Patent No. 2,639,156. 1 sheet of drawings © 609 838/190 2.57