SU1278962A1 - Vibration guiding element for tape information medium - Google Patents

Abstract

The invention relates to magnetic recording and makes it possible to increase the accuracy of the direction of the tape. In a cylindrical cavity made eccentrically in the rack, a piezoceramic element 3 is fixed, in which mechanical vibrations are transmitted, which are transmitted to the rack. In the space between the contacting surfaces of the tape 6 and the working surface of the stand, a condensed gas layer is formed due to the concentration of oscillations in its thinned part. The presence on the working surface of the screw grooves 5, filled with material that does not coincide with the rigidity material with the rack material, this layer moves the belt 6 along (to the direction of one of the guiding ribs 4. 4 Il.

Description

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Claims (1)

FIG. The invention relates to a magnetic recording technique, in particular to guide means of tape-conducting mechanisms. The purpose of the invention is to improve the accuracy of the direction of the tape. FIG. 1 schematically shows the proposed device; in fig. 2 is a cylindrical stand of the device, top view; in fig. 3 shows section A-A in FIG. one; in fig. 4 - forces acting on the tape carrier in the working area of the rack. The device comprises a cylindrical rack 1 with an cylindrical cavity 2 eccentrically formed along its longitudinal axis and a piezoceramic element 3 connected to a multiphase power source (not shown). The piezoceramic element 3 is made in the form of a sleeve to the size of the cavity 2 and fixed in it. The rack 1 is made with guide flanges 4. The helical grooves 5 are formed in the entire height of the working part of the rack 1, filled with a material with a rigidity different from that of the rack material i. In the particular case of the rack 1 is made of fixed steel, and the screw grooves 5 are filled with duralumin. The rack 1 is attached to a base (not shown) of the tape drive mechanism. The device works as follows. When the power source is turned on in a piezoceramic element 3, a "traveling wave" type oscillations are generated, which are transmitted to the rack 1. In this case, the eccentric cavity 2 promotes the concentration of mechanical oscillations of the rack 1 in its thinned working part conjugated to the tape 6. in the space between the contacting surfaces of the tape 6 and the working part of the rack 1, a compressed gas layer is formed. Since on the working surface of the rack 1 there are screw grooves 5 filled with a material that does not coincide in rigidity with the material of the rack 1, this gas layer moves towards one of the ribs 4, carries along the belt 6. The latter is pressed during transportation to one of the flanges 4 by one of its edges, depending on the sequence of the phases of the power source (Fig. 4, dotted lines showing the change in the direction of the forces of the gas layer on the tape carrier). Claims of the invention A vibratory guide element for a tape information carrier comprising a cylindrical stand with a cylindrical cavity eccentrically formed along its longitudinal axis and a piezoceramic element connected to a multiphase power source, characterized in that the piezoceramic element is made bushings to the size of the cavity and secured in it, and the stand is made with guide flanges, with the full height of the working part of the stand being formed screw grooves filled with material, the rigidity of which is not equal to the rigidity of the material of the rack.