Source: http://www.google.com/patents/US6137649?dq=7069184
Timestamp: 2014-07-12 00:36:50
Document Index: 558471152

Matched Legal Cases: ['Application No. 99104953', 'Application No. 99105259', 'Application No. 99105324', 'Application No. 99105325', 'Application No. 99105326', 'Application No. 99105327', 'Application No. 99105258', 'Application No. 99105284', 'application No. 09', 'application No. 09', 'application No. 09', 'application No. 09', 'application No. 09', 'application No. 09', 'application No. 09', 'application No. 09', 'application No. 09', 'application No. 09']

Patent US6137649 - Magnetic recording/reproduction apparatus in which one of a reel base pair ... - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign in<nobr>Advanced Patent Search</nobr>PatentsThe magnetic recording/reproduction apparatus of this invention records/reproduces information on/from a magnetic tape by drawing out the magnetic tape from a tape cassette and allowing the magnetic tape to pass around a rotary head cylinder having a rotary head for a predetermined arc. The apparatus...http://www.google.com/patents/US6137649?utm_source=gb-gplus-sharePatent US6137649 - Magnetic recording/reproduction apparatus in which one of a reel base pair is rotated to wind a magnetic tape by a predetermined amount when an abnormality is detectedAdvanced Patent SearchPublication numberUS6137649 APublication typeGrantApplication numberUS 09/266,315Publication dateOct 24, 2000Filing dateMar 11, 1999Priority dateMar 19, 1998Fee statusPaidAlso published asCN1115679C, CN1237760A, EP0944058A2, EP0944058A3Publication number09266315, 266315, US 6137649 A, US 6137649A, US-A-6137649, US6137649 A, US6137649AInventorsYoshiyuki Saito, Akio Konishi, Koichiro HirabayashiOriginal AssigneeMatsushita Electric Industrial Co., Ltd.Export CitationBiBTeX, EndNote, RefManPatent Citations (62), Non-Patent Citations (20), Referenced by (3), Classifications (20), Legal Events (4) External Links: USPTO, USPTO Assignment, EspacenetMagnetic recording/reproduction apparatus in which one of a reel base pair is rotated to wind a magnetic tape by a predetermined amount when an abnormality is detectedUS 6137649 AAbstract The magnetic recording/reproduction apparatus of this invention records/reproduces information on/from a magnetic tape by drawing out the magnetic tape from a tape cassette and allowing the magnetic tape to pass around a rotary head cylinder having a rotary head for a predetermined arc. The apparatus includes: a capstan shaft for driving the magnetic tape; a pinch roller for pressing the magnetic tape against the capstan shaft; a supply reel base rotatably attached to a shaft, the supply reel base engaging with a supply reel for holding the magnetic tape wound onto the supply reel located in the tape cassette; a winding reel base rotatably attached to a shaft, the winding reel base engaging with a winding reel for holding the magnetic tape wound onto the winding reel located in the tape cassette: a reel driving source for rotating the supply reel base and the winding reel base and abnormality detection means for detecting an abnormality in the magnetic recording/reproduction apparatus, wherein in response to the detection of the abnormality by the abnormality detection means, the reel driving source performs an abnormality relief operation including rotating one of the winding reel base and the supply reel base in a direction of winding the magnetic tape by a predetermined amount and then rotating the other of the winding reel base and the supply reel base in a direction of winding the magnetic tape by a predetermined amount.
What is claimed is: 1. A magnetic recording/reproduction apparatus for recording/reproducing information on/from a magnetic tape by drawing out the magnetic tape from a tape cassette and allowing the magnetic tape to pass around a rotary head cylinder having a rotary head for a predetermined arc, the apparatus comprising:a capstan shaft for driving the magnetic tape; a pinch roller for pressing the magnetic tape against the capstan shaft; a supply reel base rotatably attached to a shaft, the supply reel base engaging with a supply reel for holding the magnetic tape wound onto the supply reel located in the tape cassette; a winding reel base rotatably attached to a shaft, the winding real base engaging with a winding reel for holding the magnetic tape wound onto the winding reel located in the tape cassette; a reel driving source for rotating the supply reel base and the winding reel base; and abnormality detection means for detecting an abnormality in the magnetic recording/reproduction apparatus, wherein in response to the detection of the abnormality by the abnormality detection means, the reel driving source performs an abnormality relief operation including rotating one of the winding reel base and the supply reel base in a direction of winding the magnetic tape by a predetermined amount and then rotating the other of the winding reel base and the supply reel bass in a direction of winding the magnetic tape by a predetermined amount. 2. A magnetic recording/reproduction apparatus according to claim 1, wherein the magnetic recording/reproduction apparatus has a first state in which the tape cassette has been inserted by a user, and a second state in which after the insertion of the tape cassette, the magnetic tape is drawn out from the tape cassette by guidance of tape guide members to pass around the rotary head cylinder for a predetermined arc to establish a tape running path for enabling recording/reproduction of information on/from the magnetic tape, andin the second state, in response to detection of the abnormality by the abnormality detection means, the pinch roller is moved away from the capstan shaft. 3. A magnetic recording/reproduction apparatus according to claim 1, wherein the abnormality detection means includes at least one of a winding reel base rotation sensor for detecting an abnormal stop of the winding reel base and a supply reel base rotation sensor for detecting an abnormal stop of the supply reel base.
4. A magnetic recording/reproduction apparatus according to claim 1, wherein the abnormality detection means includes a condensation sensor for detecting a dew condensation generated inside the magnetic recording/reproduction apparatus.
5. A magnetic recording/reproduction apparatus according to claim 1, wherein the abnormality detection means includes a rotary head cylinder rotation sensor for detecting an abnormal stop of the rotary head cylinder.
6. A magnetic recording/reproduction apparatus according to claim 1, wherein the magnetic recording/reproduction apparatus has a first state in which the tape cassette has been inserted by a user, and a second state in which after the insertion of the tape cassette, the magnetic tape is drawn out from the tape cassette by guidance of tape guide members to pass around the rotary head cylinder for a predetermined arc to establish a tape running path for enabling recording/reproduction of information on/from the magnetic tape, andin the second state, in response to detection of the abnormality by the abnormality detection means, the reel driving source performs the abnormality relief operation. 7. A magnetic recording/reproduction apparatus according to claim 1, wherein after the reel driving source has performed the abnormality relief operation in the second state, the magnetic recording/reproduction apparatus performs an unloading operation for shifting from the second state to the first state, andafter the unloading operation has been performed, the reel driving source performs the abnormality relief operation in the first state. 8. A magnetic recording/reproduction apparatus according to claim 1, wherein the reel driving source includes:a capstan motor for driving the capstan shaft; and an idler supported swingably so as to swing to the winding reel base when the capstan shaft rotates in a forward direction and swing to the supply reel base when the capstan shaft rotates in a backward direction, the idler includes a gear portion rotating in association with the rotation of the capstan shaft, and the gear portion rotates one of the winding reel base and the supply reel base in a direction of winding the magnetic tape by a predetermined amount. Description
The present invention relates to a magnetic recording/reproduction apparatus useful as a video tape recorder (VTR).
In recent years, magnetic recording/reproduction apparatus such as VTRs tend to use an ultra thin magnetic tape as a recording medium in response to demands for digitization of data and long-time recording/reproduction.
Such an ultra thin tape is subjected to the following operation by a mechanism of a magnetic recording/reproduction apparatus. The ultra thin tape is drawn out from a tape cassette and loaded to pass around a predetermined portion of the periphery of a rotary head cylinder in this manner, the tape is kept in contact with a magnetic head disposed on the rotary head cylinder while running, so as to effect recording/reproduction of information on/from the tape. The tape is then rewound onto a reel in the cassette, and the cassette is ejected. If the tape is damaged, e.g., scratched or broken during this sequence of operations, in particular, during the loading and unloading operations, a serious quality problem arises. Therefore, great care must be taken to avoid such a problem. For example, if the cassette is attempted to be ejected while the tape is slacked, a cassette cover is closed with the tape being drawn out from the cassette, causing great damage to the tape.
In VTRs, various means are taken to ensure safe ejection of the tape cassette even when an abnormality occurs during tape running.
A conventional magnetic recording/reproduction apparatus is disclosed it Japanese Laid-Open Utility Model Publication No. 61-195552. Referring to FIGS. 40 and 41, the conventional magnetic recording/reproduction apparatus will be described.
A conventional magnetic recording/reproduction apparatus 300 includes a typical tape path where a tape 316 is drawn out from a tape cassette 310 and passes around a rotary head cylinder 318 for recording and reproduction.
The tape 316 is driven by rotating a capstan 320 with a capstan motor 323 while a pinch roller 319 is pressed against the capstan 320. The rotation of the capstan motor 323 is also transmitted to a fixed gear 332 and a swing gear 334 via gears 324 and 325 and a timing belt 326, and then transmitted selectively to a driving gear 328 of an S reel base 301 or a driving gear 329 of a T reel base 302.
The swing gear 334 is swingably attached to a shaft 339 extending from a swing plate 333, which is in turn swingably attached to a shaft of the fixed gear 332.
In the conventional magnetic recording/reproduction apparatus having the above configuration, when the tape is to be sent forward (e.g., when recorded images are to be reproduced, the tape is to be fast-forwarded, etc.), the apparatus works as follows. The capstan motor 323 is rotated forward (counterclockwise (CCW)), rotating the capstan 320 forward. This allows the tape 316 to be sent forward. At the same time, the rotation of the capstan 320 is transmitted to the fixed gear 332 via the timing belt 326, which causes the swing plate 333 to swing clockwise (CW) around a shaft 331 and thus the swing gear 334 to engage with the driving gear 329 of the T reel bass 302. The T reel base 302 then rotates clockwise, thereby allowing the tape 316 to be wound onto a winding reel inside the tape cassette 310.
In reverse, when the tape is to be sent backward (e.g. when recorded images are to be reproduced in reverse, the tape is to be rewound, etc.), the apparatus works as follows. The capstan motor 323' is rotated backward (clockwise), rotating the capstan 320 backward. This allows the tape 316 to be sent backward. At the same time, the rotation of the capstan 320 is transmitted to the fixed gear 332 via the timing belt 326, which causes the swing plate 333 to swing counterclockwise around the shaft 331 and thus the swing gear 334 to engage with the driving gear 328 of the S reel base 301. The S reel base 301 then rotates counterclockwise thereby allowing the tape 316 to be wound onto a supply reel inside the tape cassette 310.
The magnetic recording/reproduction apparatus 300 having the above configuration is provided with sensors which detect whether the S reel base 301, the T reel base 302, and the rotary head cylinder 318 are rotating normally. If an abnormality is detected by any of the sensors, the operation is normally stopped to perform a relief operation.
FIG. 38 schematically illustrates a state of tape slacking generated when the apparatus is in the state shown in FIG. 40. Referring to FIG. 38, the state of the abnormality and a normal conventional relief operation will be described.
First, in the case where an abnormality occurs in the T reel base 302 on the tape winding side during reproduction, thus failing to wind the magnetic tape 316 onto the reel on this side, the system detects abnormal rotation of the T reel base 302 and stops the reproduction operation. However, the capstan 320 continues sending the magnetic tape 316 despite the occurrence of the abnormality until the capstan's operation is stopped, causing slacking of a portion of the magnetic tape 316 (portion 316V) between the capstan 320 and the T reel base 302. In such a case, since the system has detected the abnormality at the T reel base 302, the magnetic tape 316 is wound onto the reel on the S reel base 301 before the cassette 310 is ejected.
Secondly, in reverse, in the case where an abnormality occurs in the S reel base 301 on the tape winding side during reverse reproduction, thus failing to wind the magnetic tape 316 onto the reel on this side, the system detects abnormal rotation of the S reel base 301 and stops the reverse reproduction operation. However, the capstan 320 continues sending the magnetic tape 316 despite the occurrence of the abnormality until the capstan's operation is stopped, causing slacking of a portion of the magnetic tape 316 (portion 316U) between the capstan 320 and the S reel base 301. In such a case, since the system has detected the abnormality at the S reel base 301, the magnetic tape 316 is wound onto the reel on the T reel base 302 before the cassette 310 is ejected.
More specifically, in the case where the system detects an abnormality during tape running as described above, the following sequence of operations are normally performed. The system stops the rotation of the capstan 320 and at the same time warns a user to remove the cassette 310. Upon the pressing of an eject button by the user, the tape is unloaded while the slacked portion of the tape is being wound onto the reel on the reel base opposite to the abnormal reel base, and then the tape cassette is ejected.
With the configuration and operation described above, however, the tape cassette may sometimes fail to be ejected safely if the apparatus is under the following conditions.
First, consider the case described above where abnormal rotation occurs in the reel base on the tape winding side during tape running, causing slacking of the magnetic tape, and the magnetic tape is unloaded by being wound onto the reel on the reel base opposite to the abnormal reel base. During the unloading, guide pins 317B move in the directions indicated by respective arrows shown in FIG. 38, returning to the positions shown in FIG. 41. Following the movement of the guide pins 317B, the slacked portion 316V or 316U of the magnetic tape 316 shown in FIG. 38 is wound in the tape cassette. This means that the slacked magnetic tape (316V or 316U) is wound in the tape cassette in an unstable state without being guided by the guide pins 317B. Therefore, during the winding, the magnetic tape 316 may possibly be caught by a nearby member and damaged, or oil or grease applied to a nearby member may be deposited onto the magnetic tape 316. This fails to ensure a safe winding operation.
Secondly, in the case where an abnormality occurs in the S reel base 301 on the tape supply side during reproduction thus failing to supply the magnetic tape 316, not only the S reel base 301 but also the T reel bass 302 stop rotating. Since the S and T reel bases 301 and 302 stop rotating simultaneously; the system may fail to detect in which reel base the abnormality has occurred, or may even mistakenly detect an abnormality. More specifically, the system may possibly determine that the T reel base 302 is abnormal and attempt to wind the magnetic tape 316 onto the reel on the S reel base 301 during the unloading and eject the tape cassette 310. In such a case, since the S reel base 301 is actually abnormal and unable to wind the magnetic tape 316, the tape cassette 310 may be ejected while the magnetic tape 316 is left slacked during the unloading, causing tape damage.
Likewise, in the case where an abnormality occurs in the T reel base 302 on the tape supply side during reverse reproduction failing to supply the magnetic tape 316, not only the T reel base 302 but also the S reel base 301 stop rotating. Since the S and T reel bases 301 and 302 stop rotating simultaneously, the system may fail to detect in which reel base the abnormality has occurred, or may even mistakenly detect an abnormality. More specifically, the system may possibly determine that the S reel base 301 is abnormal and attempt to wind the magnetic tape 316 onto the reel on the T reel base 302 during the unloading and eject the tape cassette 310. In such a case, since the T reel base 302 is actually abnormal and unable to wind the magnetic tape 316, the tape cassette 310 may be ejected while the magnetic tape 316 is left slacked during the unloading, causing tape damage.
Moreover, in the case where the system detects that dew condensation is generated inside the apparatus and the magnetic tape 316 sticks to the rotary head cylinder 318, the magnetic tape 316 is unloaded while being wound onto the reel on either the S reel base 301 or the T reel base 302, and the tape cassette 310 ejected. During this operation, the magnetic tape 316 may not be sufficiently wound onto the reel, causing tape damage. Hereinbelow, the case where the magnetic tape 316 is wound by the T reel base 302 will be described as an example.
Referring to FIG. 40, when dew condensation is generated during recording/reproduction and the magnetic tape 316 sticks to the rotary head cylinder 318, the system detects this occurrence, and stops the rotation of the capstan 320 to stop the recording/reproduction operation. The system then moves the pinch roller 319 away from the capstan 320, putting the apparatus into an eject standby state. When the magnetic tape 316 is unloaded, the guide pins 317A and 317B move to respective positions shown in FIG. 41, and the S reel base 301 or the T reel bass 302 operates to wind the magnetic tape 316, to reach the state shown in FIG. 39. As shown in FIG. 39, however, although the portion of the magnetic tape 316 located right with respect to the rotary head cylinder 318 (portion 316T) has been wound on the reel on the T reel base 302, the portion of the magnetic tape 316 located left with respect to the rotary head cylinder 318 (portion 316S) may sometimes be left slacked not being wound on the reel on the T reel base 302 since the magnetic tape 316 sticks to a portion 318A of the rotary head cylinder 318. Tape damage occurs if the tape cassette 310 is ejected in this state. This phenomenon also occurs when the magnetic tape 316 is wound by the S reel base 301, in which the magnetic tape 316 is left slacked on the right side with respect to the rotary head cylinder 318.
As described above, in the conventional abnormality relief operation, tape damage may occur during the cassette ejection, failing to ensure safe cassette ejection.
The object of the present invention is to provide a magnetic recording/reproduction apparatus having a mechanism in which, when the rotation of the T reel base or the S reel base abnormally stops during a normal tape recording/reproduction operation or when dew condensation is generated inside the apparatus, the S reel base and the T reel base are rotated in sequence by a predetermined amount in the direction of winding the tape after the pinch roller is moved away from the capstan, so that slacking of the tape generated due to the abnormality is eliminated allowing the tape to pass along guide pins to establish a nearly ideal tape path and thus ensuring smooth operation without occurrence of tape damage during a subsequent operation.
SUMMARY OF THE INVENTION The magnetic recording/reproduction apparatus of this invention records/reproduces information on/from a magnetic tape by drawing out the magnetic tape from a tape cassette and allowing the magnetic tape to pass around a rotary head cylinder having a rotary head for a predetermined arc. The apparatus includes: a capstan shaft for driving the magnetic tape; a pinch roller for pressing the magnetic tape against the capstan shaft a supply reel base rotatable attached to a shaft, the supply reel base engaging with a supply reel for holding the magnetic tape wound onto the supply reel located in the tape cassette; a winding reel base rotatably attached to a shaft, the winding reel base engaging with a winding reel for holding the magnetic tape wound onto the winding reel located in the tape cassette; a reel driving source for rotating the supply reel base and the winding reel base; and abnormality detection means for detecting an abnormality in the magnetic recording/reproduction apparatus, wherein in response to the detection of the abnormality by the abnormality detection means, the reel driving source performs an abnormality relief operation including rotating one of the winding reel base and the supply reel base in a direction of winding the magnetic tape by a predetermined amount and then rotating the other of the winding reel base and the supply reel base in a direction of winding the magnetic tape by a predetermined amount.
In one embodiment of the invention, the magnetic recording/reproduction apparatus has a first state in which the tape cassette has been inserted by a user, and a second state in which after the insertion of the tape cassette, the magnetic tape is drawn out from the tape cassette by guidance of tape guide members to pass around the rotary head cylinder for a predetermined arc to establish a tape running path for enabling recording/reproduction of information on/from the magnetic tape, and in the second state, in response to detection of the abnormality by the abnormality detection means, the pinch roller is moved away from the capstan shaft.
In another embodiment of the invention, the abnormality detection means includes at least one of a winding reel base rotation sensor for detecting an abnormal stop of the winding reel base and a supply reel base rotation sensor for detecting an abnormal stop of the supply reel base.
In still another embodiment of the invention, the abnormality detection means includes a condensation sensor for detecting a dew condensation generated inside the magnetic recording/reproduction apparatus.
In still another embodiment of the invention, the abnormality detection means includes a rotary head cylinder rotation sensor for detecting an abnormal stop of the rotary head cylinder.
In still another embodiment of the invention, the magnetic recording/reproduction apparatus has a first state in which the tape cassette has been inserted by a user, and a second state in which after the insertion of the tape cassette, the magnetic tape is drawn out from the tape cassette by guidance of tape guide members to pass around the rotary head cylinder for a predetermined arc to establish a tape running path for enabling recording/reproduction of information on/from the magnetic tape, and in the second state, in response to detection of the abnormality by the abnormality detection means, the reel driving source performs the abnormality relief operation.
In still another embodiment of the invention, after the reel driving source has performed the abnormality relief operation in the second state, the magnetic recording/reproduction apparatus performs an unloading operation for shifting from the second state to the first state, and after the unloading operation has been performed, the reel driving source performs the abnormality relief operation in the first state.
In still another embodiment of the invention, the reel driving source includes: a capstan motor for driving the capstan shaft; and an idler supported swingably so as to swing to the winding reel base when the capstan shaft rotates in a forward direction and swing to the supply reel base when the capstan shaft rotates in a backward direction, the idler includes a gear portion rotating in association with the rotation of the capstan shaft, and the gear portion rotates one of the winding reel base and the supply reel base in a direction of winding the magnetic tape by a predetermined amount.
Thus, according to an aspect of the present invention, in the case where an abnormality occurs, tape slacking generated due to the abnormality can be eliminated by winding the tape onto a reel, so as to establish a nearly ideal tape path to ensure smooth operation without tape damage at the next mode shift as well as safe ejection of the cassette.
According to another aspect of the present invention, in the case where the system mistakes a normal reel base for an abnormal reel base and instructs the abnormal reel base to wind the tape, or in the case where the tape sticks to the cylinder due to dew condensation, tape slacking generated due to such an abnormality can be eliminated by winding the tape onto a reel, so as to establish a nearly ideal tape path. The tape is wound again after the cassette is unloaded to ensure no tape slacking, and thus the cassette is safely ejected without tape damage.
Thus, the invention described herein makes possible the advantage of providing a magnetic recording/reproduction apparatus having a mechanism in which, when the T reel base or the S reel base abnormally stops during a normal tape recording/reproduction operation or when dew condensation is generated inside the apparatus, the S reel base and the T reel base are rotated in sequence by a predetermined amount in the direction of winding the tape after the pinch roller is moved away from the capstan, so that slacking of the tape generated due to the abnormality is eliminated allowing the tape to pass along guide pins to establish a nearly ideal tape path and thus ensuring smooth operation without occurrence of tape damage during a subsequent operation.
FIG. 11 is a cross-sectional view of a MIC-SW of one embodiment of the magnetic recording/reproduction apparatus, taken along the line A--A of FIG. 1;
FIG. 15 is a plan view of one embodiment of the magnetic recording/reproduction apparatus, illustrating a state in which the apparatus is ready for recording/reproduction and fast-forwarding of a tape. (PLAY mode);
FIG. 27 is a plan view illustrating a state in which the boat driving arm and the sub-chassis driving arm are driven in a mode which is a mode before the PLAY mode close to the LOADING 2 mode (PRE-PLAY mode) in one embodiment of the magnetic recording/reproduction apparatus;
FIG. 36 is a schematic view illustrating a first example of tape slacking generated when an abnormality occurs in the magnetic recording/reproduction apparatus;
FIG. 37 is a schematic view illustrating a second example of tape slacking generated when an abnormality occurs in the magnetic recording/reproduction apparatus;
FIG. 38 is a schematic view illustrating a first example of tape slacking generated when an abnormality occurs in a conventional magnetic recording/reproduction apparatus;
FIG. 39 is a schematic view illustrating a second example of tape slacking generated when an abnormality occurs in the conventional magnetic recording/reproduction apparatus;
FIG. 40 is a plan view of the conventional magnetic recording/reproduction apparatus in the loading completion state; and
FIG. 41 is a plan view of the conventional magnetic recording/reproduction apparatus in the unloaded state.
A tape 2 is wound on two reels (not shown) placed inside a cassette 1. In FIG. 1, for easy viewing, only the outline of the cassette 1 is shown (by the one-dot chain lines), and only the portion of the tape 2 which extends outside the cassette 1 is shown (by the one-dot chain lines). The cassette 1 is placed on a sub-chassis 3. An S reel base 4 and a T reel base 5 are rotatably mounted on the sub-chassis 3 and engage the two reels (not shown) inside the cassette 1.
A tension band 19 is swingably attached at one end 124 to a shaft 20 of the tension arm 12 and at the other end 125 to a shaft 22 of a tension band regulating arm 21, The tension band regulating arm 21 is swingably mounted on the sub-chassis 3 via a shaft 23, and urged counterclockwise by a torsion coil spring 24. The torsion coil spring 24 is hooked to a spring hook portion 115 disposed on the sub-chassis 3. A tension arm stop plate 116 is secured to the sub-chassis 3 with a screw (not shown) at a position 117 after being adjusted appropriately so that the movement of the tension band regulating arm 21 is restricted by abutting against the tension arm stop plate 116.
An S boat 39 and a T boat 40 are provided with pins 41A and 41B, and pins 41C and 41D, respectively, which engage with an elongate hole 43 of a rail 42, so that the S boat 39 and the T boat 40 move along the elongate hole 43. The S boat 39 and the T boat 40 are also provided with an S1 post 45 and an S2 post 44 and a T1 post 46 and a T2 post 47, respectively, so that the tape 2 can be put in contact with the cylinder 38 as the S boat 39 and the T boat 40 move. A rail 48 and an S3 post 49 are disposed on the main chassis 8. A T3 post 51 is disposed in a capstan housing 52 which holds a capstan shaft 50. The capstan shaft 50 is driven by a capstan motor 50A.
A pinch arm 53 is swingably mounted on the main chassis 8 via a shaft 54. A pinch roller 55 is rotatably disposed at one end of the pinch arm 53. A pinch pressing arm 56 is also swingably attached to the shaft 54 of the pinch arm 53. The pinch pressing arm 56 and the pinch arm 53 are urged and held together by a torsion coil spring 57. A tension spring 58 extends between the pinch arm 53 and the sub-chassis 3, urging the pinch arm 53 counterclockwise . A protrusion 59 of the pinch arm 53 abuts against a wall 60 of the sub-chassis 3, so as to drive the pinch 53 as the sub-chassis 3 moves.
Referring to FIGS. 3 and 4, two elongate holes 61 formed through the tension plate 18 engage with two guide pins 62 extending from the main chassis 8, so that the tension plate 18 is guided forward end backward by the guide pins 62.
Referring to FIGS. 1, 3, and 4, the tension plate driving arm 64 is driven by the engagement of the arm following pin 69 with the cam groove 68 of the cam gear 66, and then the tension plate 18 is driven by the engagement of the cam groove 71 with the pin 70 of the tension plate driving arm 64.
FIG. 5 illustrates a mechanism for driving the S boat 39 and the T boat 40 mounted on the main chassis 8. Referring to FIGS. 3 and 5, a boat driving arm 73 is swingably mounted on the main chassis 8 via a shaft 74. A driving pin 75 extending from the cam gear 66 abuts against an internal cam 76 provided in the boat driving arm 73 so that the boat driving arm 73 is driven as the cam gear 66 swings.
A guide pin 92 extends from the sub-chassis driving s arm 89 and abuts against the cam plates 32 and 33 via a hole 108 in the sub-chassis 3 (see FIG. 1). Thus, the sub-chassis driving arm 89 is driven by the cam gear 66, and then the sub-chassis 3 is driven by the sub-chassis driving arm 89 via the cam plates 32 and 33. The position of the sub-chassis 3 with respect to the main chassis 8 can be adjusted by adjusting the positions of the cam plates 32 and 33 in the right and left directions.
FIG. 7 illustrates a structure of the pinch arm 53 and the components in the vicinity thereof: FIG. 8 illustrates the pinch arm 53 itself, FIG. 9 illustrates the pinch pressing arm 56, and FIG. 10 illustrates the torsion coil spring 57. In FIGS. 7 and 8, only the outline is shown by the broken line for the pinch roller 55. As shown in FIG. 7, the pinch arm 53 and the pinch pressing arm 56 are normally swung integrally around the shaft 54 (see FIG. 1) by means of the torsion coil spring 57. When the pinch roller 55 abuts against the capstan shaft 50, the pinch arm 53 and the pinch pressing arm 56 stop swinging. In this state, when the pinch pressing arm 56 is further swung clockwise the pinch roller 55 is pressed against the capstan shaft 50 by the repulsive force of the torsion coil spring 57. A roller 152 is rotatably attached to the pinch pressing arm 56.
Ref erring to FIGS. 1 and 3, the T4 regulating pin 31 of the T4 arm 28 abuts against a protrusion 102 of the pinch driving arm 97 via a hole 101 (FIG. 1) formed through the sub-chassis 3. The T4 arm 28 is therefore driven by the swinging of the pinch driving arm 97.
FIG. 11 is across-sectional view of the MIC-SW 11, taken along line A--A of FIG. 1. Referring to FIGS. 1 and 11, the MIC-SW 11 is secured to the sub-chassis 3 with a screw (not shown). A sub-chassis reinforcing plate 103 is secured to the sub-chassis 3 with a screw (not shown). A U-shaped end portion 104 of the sub-chassis reinforcing plate 103 engages with an end 105 of the MIC-SW 11 so as to reinforce the MIC-SW 11. The MIC-SW 11 is provided with a contact 106 which comes into contact with a memory 107 located in the cassette 1 for effecting output/input of signals. When the contact 106 is pressed by the cassette 1, the MIC-SW 11 receives a reactive force. Since the body of the MIC-SW 11 is normally made of plastic, it is vulnerable to creep deformation. According to the present invention, however, the MIC-SW 11 can be reinforced by the sub-chassis reinforcing plate 103, allowing the body of the MIC-SW 11 to be thinned and thereby the entire apparatus to be made small.
FIG. 13 illustrates LOADING 1 mode in which the tension post 14 and the T4 post 30 have protruded from the cassette 1. FIG. 14 illustrates LOADING 2 mode in which the sub-chassis 3 has moved a half of its entire stroke. FIG. 15 illustrates PLAY mode in which the movement of the sub-chassis 3 has been completed-and the tape loading, i.e., the passing of the tape 2 around the cylinder 38, has bees completed, to allow the tape to run forward from the S reel base 4 to the T reel base 5 to effect recording/reproduction, fast-forwarding, etc. of the tape.
FIGS. 18 and 19 are views similar to FIG. 3, i.e., plan views of the magnetic recording/reproduction apparatus 100 according to the present invention, where the sub-chassis 3 together with the components provided thereon are removed for illustrating the structure of the main chassis 8. All of the reference numerals of the components shown in FIGS. 18 and 19 correspond to those shown in FIG. 3. FIGS. 3, 18, and 19 illustrate the UNLOADED mode, the LOADING 1 mode, and the LOADING 2 mode, respectively.
FIGS. 20 through 23 are views similar to FIG. 4, i.e., views illustrating the tension plate 18 and the components in the vicinity thereof in detail. All of the reference numerals of the components shown in FIGS. 20 to 23 correspond to those shown in FIG. 4. FIG. 4 illustrates the UNLOADED mode, FIG. 20 illustrates the LOADING 1 mode, FIG. 21 illustrates the LOADING 2 mode, FIG. 22 illustrates the PLAY mode, and FIG. 23 illustrates the STOP mode and the REV mode. The position of the tension plate 18 is the same in the STOP mode and the REV mode.
FIGS. 31 through 35 are views illustrating the state in which the pinch arm 53 on the main chassis 8 and the T4 arm 28 on the sub-chassis 3 are driven by the pinch driving arm 97. The T4 arm 28 is not shown but only the T4 arm regulating pin 31 of the T4 arm 28 is shown in these figures.
Referring to FIG. 1, the tape 2 has not been drawn out from the cassette 1. Referring to FIGS. 1, 3, and 24, the sub-chassis 3 is located at the most extended position from the main chassis 8. The driving pin 75 of the can gear 66 is in contact with first arc portions 121 and 122 of the internal cams 91 and 76 of the sub-chassis driving arm 89 and the boat driving arm 73, respectively. The sub-chassis driving arm 89 and the boat driving arm 73 are both in the state of having swung clockwise to the maximum
Referring to FIGS. 1, 3, and 4, the tension plate 18 is forced to the most forward position by the tension plate driving arm 64. The tension arm 12 is then forced to a position of having swung clockwise to the maximum by the tension band regulating pin 15 engaging with the cam groove 63 of the tension plate 18.
The driving pin 75 has been disengaged from the concave portion 126 of the internal cam 91 of the boat driving arm 73 to come into contact with a second arc portion 129 thereof. The boat driving arm 73 is rotated when the driving pin 75 is in the concave portion 126. On the contrary, the boat driving arm 73 is held at a fixed position when the driving pin 75 is in contact with the first and second arc portion 122 and 129.
The tape 2 drawn out from a tape supply reel (not shown) located on the left side of the cassette 1 passes around the tension post 14, the S3 post 49 mounted on the main chassis 8, the S2 post 44, and then the S1 post 45 in this order before passing around the cylinder 38 at a predetermined contact angle and tilt angle based on the standard for the tape recording pattern. Thereafter, the tape 2 passes around the T1 post 46, the T2 post 47, and the T3 post 51, so as to resume the state without torsion or a height difference from the original state when it was drawn out from the cassette 1. The tape 2 then passes around the capstan shaft 50 which stands perpendicular to the tape passing direction and the T4 post 30 before being wound onto a winding reel (not shown) located on the right side of the cassette 1.
In and after the PLAY mode, therefore, the reactive force against the pressing of the S boat 39 and the T boat 40 Is sustained, not by the driving pin 75, but by the boat driving arm stopper 148 of the sub-chassis driving am 89. Accordingly, in and after the PLAY mode, the position of the boat driving arm 73 is determined, not by the driving pin 75, but by the boat driving arm stopper 148.
Referring to FIG. 34, in the PLAY mode, the pinch driving arm 97 has been swung clockwise by the pinch cam gear 95. A pressing cam portion 251 of the pinch driving arm 97 presses the roller 152 which is rotatable mounted on the pinch pressing arm 56 via a shaft. This results in that the pinch roller 55 presses against the capstan shaft 50 via the tape 2 by the force of the torsion coil spring 57, to allow the tape 2 to run with the rotation of the capstan shaft 50. The position of the T4 arm 28 is held unchanged by the T4 guide 145.
Referring to FIG. 29, the positions of the sub-chassis driving arm 89 and the boat driving arm 73 are the same as those in the PLAY mode shown in FIG. 28. Only the position of the driving pin 75 of the can gear 66 is different from that in the PLAY mode.
Referring to FIGS. 16 and 35, the pinch driving arm 97 has been swung counterclockwise, and is not in contact with the roller 152 of the pinch pressing arm 56. The pinch arm 53 is urged counterclockwise by the tension spring 58, to abut against the wall 60 of the sub-chassis 3. In this state, the pinch roller 55 is away from the capstan shaft 50
FIG. 15 illustrates the state in which the apparatus is ready for magnetic recording/reproduction with the tape 2 passing around and being in contact with the cylinder 38. Rotation sensors 202, 203, 204, and 205 are provided in the vicinity of the S reel base 4, the T reel base 5, the cylinder 38, and the capstan shaft 50, respectively, to detect whether or not the S reel base 4, the T reel base 5, the cylinder 38 and the capstan shaft 50 are normally rotating if a rotation failure is detected by any of the rotation sensors 202, 203, 204, and 205, a system 201 stops the rotation of the capstan shaft 50.
The operation of the apparatus when the winding reel base or the supply reel base abnormally stops or when dew condensation is generated inside the apparatus will be described with reference to FIGS. 15, 17, 36, and 37.
First, consider the case where an abnormality occurs in the T reel base 5 on the tape winding side during reproduction in the state shown in FIG. 15, failing to wind the tape 2 onto the reel in this case, as shown in FIG. 36, the abnormal rotation of the T reel base 5 is detected by the rotation sensor 203 and, in response to this detection, the system 201 stops the reproduction operation. However, the capstan shaft 50 continues sending the magnetic tape 2 despite the occurrence of the abnormality until the operation is stopped, causing slacking of a portion of the tape 2 (portion 2A) between the capstan shaft 50 and the T reel bass 5.
Secondly, consider the case where an abnormality occurs in the S reel base 4 on the tape winding side during reverse reproduction in the state shown in FIG. 17, failing to wind the tape 2 onto the reel. In this case, as in the above case, as shown in FIG. 36, the abnormal rotation of the S reel base 4 is detected by the rotation sensor 202 and, in response to this detection, the system 201 stops the reverse reproduction operation. However, the capstan shaft 50 continues sending the magnetic tape 2 despite the occurrence of the abnormality until the operation is stopped, causing slacking of a portion of the tape 2 (portion 2B) in the vicinity of the capstan shaft 50.
In both the above first and second cases, the following sequence of operations is performed. After the pinch roller 55 is moved away from the capstan shaft 50, the tape 2 is wound onto the reel on the T reel base 5 for a predetermined time and then wound onto the reel on the S reel base 4 for a predetermined time, So as to absorb the tape slacking generated at the portion 2A or 2B of the tape 2, thereby establishing the tape path shown in FIG. 15 to be in the eject standby state. Upon the execution of ejection operation by the user, the tape 2 is unloaded while being wound again onto the reel on the T reel base 5, to resume the state shown in FIG. 1.
In the above state, the tape 2 is wound again onto the reel on the T reel base 5 for a predetermined time, and then wound onto the reel on the S reel base 4 for a predetermined time. Thereafter, the cassette is ejected.
Thirdly, consider the case where an abnormality occurs in the S reel base 4 on the tape supply ride during reproduction in the state shown in FIG. 15, failing to draw out the tape 2 from the reel, or the case where an abnormality occurs in the T reel base 5 on the tape supply side during reverse reproduction in the state shown in FIG. 17, failing to draw out the tape 2 from the reel. In this case, since both the S reel base 304 and the T reel base 305 stop simultaneously, it is difficult for the system 201 to detect which reel base is abnormal. Further, in this case, tape slacking as shown in FIG. 36 is not generated, but the tape path shown in FIG. 15 is maintained.
In the above third case, the following sequence of operations is performed. As in the first and second cases, after the pinch roller 55 is moved away from the capstan shaft 50, the tape 2 is wound onto the reel on the T reel base 5 for a predetermined time and then wound onto the reel on the S reel base 4 for a predetermined time, so as to be in the eject standby state. Upon the execution of ejection operation by the user, the tape is unloaded while being wound onto the reel on the T reel base 5, to resume the state shown in FIG. 1. In this case, however, if the T reel base 5 is actually abnormal, tape slacking may be left when the apparatus resumes the state shown in FIG. 1 since the abnormal T reel base 5 only winds the tape insufficiently. However, this slacking is absorbed in the subsequent operation in which the tape is wound again onto the reel on the T reel base 5 for a predetermined time, and then wound onto the reel on the S reel base 4 for a predetermined time.
As the fourth case, the system 201 performs a sequence of operations similar to that described above when a condensation sensor 206 detects dew condensation generated inside the apparatus in the state shown in FIG. 15, so as to release the tape sticking to the cylinder 38. Upon the detection of the dew condensation, the system 201 stops the rotation of the capstan shaft 50 and moves the pinch roller 55 away from the capstan shaft 50 . thereafter, the capstan shaft 50 is rotated in the direction in which the tape is wound onto the reel on the T reel base 5 for a predetermined time and then rotated in the direction in which the tape is wound onto the reel on the S reel base 4 for a predetermined time. In the above operations, tape slacking generated due to the sticking of the tape 2 to the cylinder 38, if any, is absorbed, establishing the tape path shown in FIG. 15 to be in the eject standby state. Upon execution of ejection operation by the user, the tape is unloaded while being wound onto the reel on the T reel base 5 to reach the state shown in FIG. 37. In the state shown in FIG. 37, although the portion of the tape 2 located right with respect to the cylinder 38 (portion 2T) has been sufficiently wound on the reel on the T reel base 5, the portion of the tape 2 located left with respect to the cylinder 38 (portion 2S) fails to be wound on the reel on the T reel bass 5, since the tape 2 sticks to a portion 38A of the cylinder 38. However, according to the present invention, after the state shown in FIG. 37 is reached, the T reel base is rotated in the direction of winding the tape 2 for a predetermined time and then the S reel base 4 is rotated in the direction of winding the tape 2, before ejecting the cassette. By this winding operation of the S reel base 4, the slacked portion 2S of the tape 2 shown in FIG. 37 is wound onto the reel on the S reel base 4. Thus, the cassette is ejected safely.
Thus, according to the embodiment of the present invention, in the case where the rotation of the winding reel base or the supply reel base is abnormally stopped during normal recording/reproduction of information on/from a magnetic tape, or in the case where dew condensation is generated inside the apparatus, the cassette can be safely ejected without tape damage by the following sequence of operations. First, the capstan shaft 50 is stopped, and the pinch roller 55 is moved away from the capstan shaft 50. Thereafter, the T reel base 5 is rotated in the direction of winding the tape 2 for a predetermined time, and subsequently the S reel base 4 is rotated in the direction of winding the tape 2. The tape 2 is then unloaded while the tape 2 is being wound onto the reel on the T reel base 5. Upon completion of the unloading, the T reel base S is rotated again in the direction of winding the tape 2 for a predetermined time, and subsequently the S reel base 4 is rotated in the direction of winding the tape 2 for a predetermined time.
The cases where an abnormality occurs during reproduction and reverse reproduction were described above. It would be understood that similar sequence of operations can be performed in the case where an abnormality occurs In any of states of tape running including fast-forwarding, rewinding, slow reproduction, recording, and temporary stop.
In the above description of the embodiment according to the present invention, the capstan motor 50A for driving the capstan shaft 50 corresponds to the reel driving source defined in the claims appended hereto, and the tension post guide 14, the S1 post 45, the S2 post 44, the T1 post 46, the T2 post 47, and the T4 post 30 correspond to the tape guide members in the claims.
In the present invention, the abnormality detection means may be a loading motor rotation sensor.
Thus, the present invention provides a significant effect that the tape cassette can be ejected safely without tape damage even when an abnormality occurs during running of the tape.
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EventsDateCodeEventDescriptionMar 20, 2012FPAYFee paymentYear of fee payment: 12Apr 11, 2008FPAYFee paymentYear of fee payment: 8Mar 17, 2004FPAYFee paymentYear of fee payment: 4Mar 11, 1999ASAssignmentOwner name: MATSUSHITA ELECTRIC INDUSTRIAL CO., LTD., JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:SAITO, YOSHIYUKI;KONISHI, AKIO;HIRABAYASHI, KOICHIRO;REEL/FRAME:009831/0329Effective date: 19990304RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services©2012 Google