Abstract:
A rotary head type reproducing apparatus for reproducing information signals recorded in a plurality of recording tracks by tracing, with rotary type magnetic heads, the recording tracks which are formed on a tape-shaped magnetic record bearing medium in a direction of crossing the longitudinal direction of the medium comprises: pairs of magnetic heads which are positioned in the vicinity of each other with each pair of heads arranged to have different azimuth angles from each other; a rotary member arranged to have the pairs of magnetic heads mounted on the circumference thereof; rotation period detecting means arranged to detect the rotation period of the rotary member and to produce a rotation period information signal corresponding to the rotation period detected; and output selection means for selectively producing, according to the rotation period information signal, the information signals reproduced from the recordng tracks by the pairs of magnetic heads through their tracing action on the tape-shaped magnetic record bearing medium.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     This invention relates to a rotary head type reproducing apparatus and more particularly to an apparatus for reproducing, by means of rotary heads, recorded signals from a group of recording tracks which are formed on a tape-shaped record bearing medium obliquely relative to the longitudinal direction of the tape-shaped medium. 
     2. Description of the Related Art 
     The conventional apparatus of the kind mentioned above includes video tape recorders (hereinafter referred to as VTR&#39;s). To prevent noises from appearing on a reproduced picture in carrying out so-called slow motion reproduction with the VTR, the following method has been employed: A capstan motor is quickly and repetitively started and stopped to intermittently feed the tape and thus to bring the tape into an ideal stopping position in such a manner as to carry out a still picture reproduction and normal reproduction in a given ratio for slow motion reproduction. In order to intermittently feed the tape in this manner, however, the generating torque of a capstan motor which drives the tape to travel must be large enough for starting and stopping the tape within sufficiently short periods of time. Besides, the large torque of the capstan motor has been apt to damage the tape in starting and stopping it. Further, a load imposed on the tape by the generating torque of the capstan motor causes uneven rotation of a drum motor, which results in so-called lateral blurring of a reproduced picture. This necessitates an additional circuit for electrical suppression of the lateral blurring. In addition to these problems, such a condition tends to seriously damage the heads and make the travel of the tape unstable. 
     SUMMARY OF THE INVENTION 
     It is a general object of this invention to provide a rotary head type reproducing apparatus which is capable of solving the problems mentioned above. 
     It is a more specific object of this invention to provide a rotary head type reproducing apparatus which is capable of obtaining adequately reproduced signals with simple structural arrangement from a tape-shaped record bearing medium irrespective of the travelling speed of the tape-shaped record bearing medium. 
     To attain this object, a rotary head type reproducing apparatus arranged according to this invention to reproduce information signals recorded in a plurality of recording tracks by tracing, with rotary type magnetic heads, the recording tracks which are formed on a tape-shaped magnetic record bearing medium in a direction of crossing the longitudinal direction of the medium comprises: pairs of magnetic heads which are positioned in the vicinity of each other with each pair of heads arranged to have different azimuth angles from each other; a rotary member arranged to have the pairs of magnetic heads mounted on the circumference thereof; rotation period detecting means arranged to detect the rotation period of the rotary member and to produce a rotation period information signal corresponding to the rotation period detected; and output selection means for selectively producing, according to the rotation period information signal, the information signals reproduced from the recording tracks by the pairs of magnetic heads through their tracing action on the tape-shaped record bearing medium. 
     It is another object of this invention to provide a rotary head type reproducing apparatus which is capable of adequately reproducing information signals recorded in recording tracks formed on a tape-shaped record bearing medium even in cases where the recording tracks have varied widths without recourse to any complex arrangement. 
     To attain that object, a rotary head type reproducing apparatus arranged according to this invention to reproduce information signals from recording tracks by tracing with rotary type magnetic heads a tape-shaped magnetic record bearing medium on which the recording tracks are formed in the direction of crossing the longitudinal direction of the medium with the information signals at least either in the form of normal recording tracks or in the form of long-time recording track having a narrower width than the normal recording tracks in the direction perpendicular to the longitudinal direction of the tracks comprises: a rotary member which is arranged to be rotatable; two normal-recording-track reproducing magnetic heads which are mounted on the circumference of the rotary member and are arranged back to back deviating 180 degrees from each other; two long-time-recording-track reproducing magnetic heads which are mounted also on the circumference of the rotary member being arranged back to back deviating 180 degrees from each other and are positioned closer to the two normal-recording-track reproducing magnetic heads respectively; medium travel driving means for causing the tape-shaped record bearing medium to travel in the longitudinal direction thereof; and output selection means arranged to select either the normal-recording-track reproducing magnetic heads or the long-time-recording-track reproducing magnetic heads, when the tape-shaped magnetic record bearing medium is driven by the medium travel driving means to travel at such a speed that either the normal-recording-track reproducing heads or the long-time-recording-track reproducing heads are caused to trace the tape-shaped medium across or traversing a plurality of these recording tracks, and to allow the information signals which are recorded in the recording tracks on the medium and reproduced by the selected magnetic heads to be produced as a reprouced signal. 
     The above and further objects and features of this invention will become apparent from the following detailed description of embodiments thereof taken in connection with the accompanying drawings. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIGS. 1(A) and 1(B) schematically show the head allocation of a VTR arranged according to this invention as an embodiment thereof. 
     FIG. 2 is a diagram showing in outline the circuit arrangement of the reproduction system of the same VTR. 
     FIG. 3 is a timing chart showing the wave forms of signals obtained at various parts of FIG. 2. 
     FIG. 4 is a diagram showing the details of a timing signal generating circuit included in the VTR of FIG. 2. 
     FIGS. 5 and 6 are illustrations of a manner in which the heads of the VTR perform a tracing action on a record bearing medium. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     A preferred embodiment of this invention is arranged as described below: 
     In this case, the invention is applied to a VTR. FIGS. 1(A) and 1(B) show the way in which the heads of the VTR are allocated. FIG. 2 shows in outline the circuit arrangement of the reproduction system of the VTR. Referring to FIGS. 1(A) and 1(B), heads CH1 and CH2 are arranged to record signals while forming recording tracks in a normal width and to reproduce signals from the tracks in a normal manner. Heads CH3 and CH4 are arranged to record signals while forming recording tracks in a width narrower than the normal track width and to reproduce the recorded signals from these narrower tracks. Assuming that the VTR of this embodiment is a socalled 8 mm VTR arranged to handle signals according to the NTSC system, the normal or standard width of the recording tracks is set at about 20 μm and the narrow width of tracks at about 10 μm. Accordingly, the heads CH1 and CH2 are arranged, for example, to give a recording track width of about 28 μm and the heads CH3 and CH4 a track width about 15 μm. 
     As shown in FIG. 1(B), the wider heads CH1 and CH2 are fixedly mounted on a rotary drum 1 at a phase difference of 180 degrees between them and have different azimuth angles from each other. The narrower heads CH3 and CH4 are also fixedly mounted on the rotary drum 1 at a phase difference of 180 degrees between them. As shown in FIG. 1(A), the wider and narrower heads which differ in azimuth angle from each other are located in the vicinity of each other. In other words, the heads CH1 and CH3 are positioned close to each other while the heads CH2 and CH4 are positioned also close to each other. Referring to FIG. 1(B), these closely arranged heads are positioned on the rotary drum 1 at a phase difference θ in such a manner that they trace the tape at different timings deviating from each other to a degree corresponding to an nH portion of a video signal (n: a natural number and H: a horizontal scanning period). 
     Referring to FIG. 2, the illustration includes reproduction amplifiers 3, 4, 5 and 6; switches 7, 8, 9 and 10; and a rotation detector 11 which detects the rotation of the rotary drum 1. The output of the detector 11 which is a rectangular wave signal of 30 Hz (hereinafter referred to as 30 PG signal) is supplied to a timing signal generating circuit 12. The circuit 12 generates timing signals (a), (b), (c), (d), (e) and (f) as shown in FIG. 2 according to the 30 PG signal. 
     The VTR performs normal reproduction as follows: In this instance, signals recorded in the wider tracks on the tape are reproduced by the heads CH1 and CH2. The switches 7 and 9 turn on in succession every time the heads CH1 and CH2 turn round 180 degrees to give a continuous signal. Meanwhile, signals recorded in the narrower tracks are reproduced by the heads CH3 and CH4. The switches 8 and 10 then turn on in succession likewise to give a continuous signal. 
     The continuous signal thus obtained is supplied to a video signal processing circuit 13 to undergo a known signal processing operation. Then, a reproduced video signal is produced from a terminal 18. In the case of an 8 mm VTR, as well known, pilot signals for tracking control are superimposed on the video signal. Therefore, while the reproduced video signal is thus produced, an automatic track finding circuit 14 (hereinafter referred to as ATF circuit for short) produces a tracking error signal by using the pilot signals which are also reproduced along with the video signal. In accordance with this tracking error signal (hereinafter referred to as ATF signal), a capstan motor control circuit 17 operates to control a capstan motor which is not shown. The rotation phase of a capstan 20 is thus controlled by the circuit 17. In that instance, a sample-and-hold circuit 15 (hereinafter referred to as S/H circuit) either samples or does not sample the ATF signal at every field period of the video signal and the ATF signal is supplied to the capstan motor control circuit 17 via an amplifier 16. 
     In the event of a slow motion reproducing operation to be carried out at a tape speed which is 1/3 of the normal speed of tape travel (hereinafter referred to as 1/3 slow reproduction), the VTR operates as follows: FIG. 3 is a timing chart showing the wave forms of the signals of various parts of FIG. 2 obtained when the 1/3 slow reproduction is performed on the signals recorded in the wider recording tracks on the magnetic tape. In FIG. 3, a part (a) shows a timing signal obtained by frequency dividing the 30 PG signal by 1/3. This signal (a) is supplied to the ATF circuit 14. At the ATF circuit 14, the pilot signals reproduced along with the video signal by the heads are subjected to a multiplying operation in a known manner one after another together with reference signals of the same frequencies as those of the pilot signals recorded in the applicable recording tracks. The above-stated timing signal (a) is used for control over a switching timing from one reference signal of one frequency value over to another reference signal of a different frequency value. At a part 4f in FIG. 3, reference symbols f1, f2, f3 and f4 denote the different frequencies of these reference signals. Among the outputs of the timing signal generating circuit 12, the timing signals (b), (c), (d) and (e) are arranged to control the connecting positions of the switches 7, 8, 9 and 10. Another timing signal (f) is arranged to provide the S/H circuit 15 with sampling pulses. 
     FIG. 4 shows the arrangement of the timing signal generating circuit 12 for the 1/3 slow reproducing operation on the wider recording tracks. FIG. 5 shows the tracing action of the heads on the record bearing medium performed during normal reproduction. Referring to FIG. 4, the timing signal (a) is obtained by frequency dividing by 1/3 the inverted output of the 30 PG signal produced from an inverter 21 by means of an exclusive logical sum circuit 22 (hereinafter referred to as EXOR circuit) and a binary counter 23. The timing signal (b) is obtained by taking the AND of the timing signal (a) and the 30 PG signal. The timing signal (c) is obtained from another EXOR circuit 25 which receives the timing signals (a) and (b) as two inputs thereof. The timing signal (d) is obtained from a NOR gate 26 which has the timing signal (a) and the 30 PG signal as two inputs thereof. The timing signal (e) is obtained from another NOR gate 27 which has the timing signals (d) and (a) as its two inputs. The sampling timing signal (f) is obtained by taking out the rising and falling endges of the timing signal (a) by means of a time constant circuit 31 and an EXOR 28, by taking out through a time constant circuit 32 and an EXOR circuit 29 the rising and falling edges of the output of a mono-stable multivibrator 33 (hereinafter referred to as MM) which is triggered by the above-stated edges and by obtaining the logical sum of the outputs of the EXOR&#39;s 28 and 29 by means of an OR gate 30. 
     Referring to FIG. 5, the axis of abscissa of the drawing shows a time base; the axis of ordinate shows the tape position in the longitudinal direction thereof; each of parallelograms shown in the drawing represents a recording track obliquely formed relative to the longitudinal direction of the tape; reference symbols CH1 to CH4 denote the tracing loci of the heads CH1 to CH4; and symbols S denote sampling pulses provided by the timing signal (f). As mentioned above, the heads CH1 to CH4 have different azimuth angles. Assuming that the head CH1 has a negative azimuth angle &#34;-&#34;, the head CH2 has a positive azimuth angle &#34;+&#34;. Assuming that the head CH3 has an azimuth angle ⊕, the head CH4 has another azimuth angle ⊖. Therefore, adjacent recording tracks have signals recorded therein by the heads of different azimuth angles, i.e. by the heads CH1 and CH2 or by the heads CH3 and CH4. As a result, a satisfactorily reproduced signal is obtained as represented by hatched parts in FIG. 5. In accordance with the above-stated arrangement of this embodiment, either the heads CH1 and CH3 or the heads CH2 and CH4 are selectively used in obtaining one field portion of the reproduced signal in the manner described. 
     FIG. 6 shows a manner in which the heads traces the record bearing medium in performing a 1/3 slow motion reproducing operation on signals recorded in recording tracks with the narrower heads. In this instance, a satisfactorily reproduced signal is obtainable also by selectively using the heads CH1 and CH3 or the heads CH2 and CH4. Further, in this instance, any desired signal portion is reproducible from an applicable recording track by supplying the timing signals (b) and (c) and the timing signals (d) and (e) generated by the timing signal generating circuit 12 conversely to the switches 8 and 7 and to the switches 10 and 9 respectively. 
     As apparent from FIGS. 5 and 6, with the adjacent heads among four heads are selectively used, the reproduced signal is always obtainable at a high level even when the tape is allowed to continuously travel. In addition to this, the video signal never becomes discontinuous within each field, so that a slow motion reproducing operation can be accomplished in an excellent manner. 
     It is another advantage of the embodiment that the tracking control can be adequately accomplished by sample-and-holding the ATF signal at a timing preset according to the tape speed. As regards the tape travel speed for slow motion reproduction, any slow motion reproduction other than the 1/3 slow reproduction also can be adequately carried out by suitably changing the switch-over rotation of the reproducing heads and the sample-and-holding timing for the ATF signal as long as the tape speed does not exceed a limit within which the record of one track is reproducible with one and the same head (a speed not exceeding a speed three times as high as the tape speed employed in recording). 
     As mentioned in the foregoing, the VTR according to this invention is capable of obtaining adequately reproduced signals with simple arrangement irrespective of the travelling speed of the tape-shaped record bearing medium.