DE3018347A1 - Video tape recorder tape load-unload switch mechanism - has tape application toothed ring with tape pressure roll or pull-out pin rotated by motor drive - Google Patents

Abstract

The mechanism has a toothed ring for tape application, carrying a pressure roll for a pull-out pin for taking out the video tape from a cassette and bringing it into recording or playback position. A drive motor rotation is transmitted to the ring by a gear train. A group of control keys switches over the gear train, when a change in the ring rotation direction is required. The ring rotation is stopped by a mechanism interrupting the transmission gear train operation. The gear train has a lever plate with a gear (37) for forward rotation of the ring, and a swivel level with a gear for the ring reverse rotation. The plate and lever are actuated by the recording to playback keys, via a cam section on a slider. The cam section connects the drive motor, when depressed, while on release it actuates the motor reverse rotation.

Description

Loader switching mechanism for a magnetic

tape video recorder The invention relates to a loader switching mechanism for a magnetic tape video recorder, which is used to attach the magnetic tape to a to create the rotary head contained in the video recorder and other functional components and to bring the tape up to a tape drive shaft or the unloading process of the device to undertake. The aim of the invention is to design the switching mechanism in such a way that that it can be made particularly compact, so that it can be used in a portable video recorder can be accommodated and that it works exactly.

Using the figures of the drawing, the invention is illustrated using an exemplary embodiment explained in more detail. In detail: FIG. 1 shows an overall view of the cassette recorder in plan view with the cover removed; Figs. 2 to 4 are views of an in the device used cassette from above, from below and from one side; Fig. 5 is a plan view As in FIG. 1, but with the cassette in place and the magnetic tape placed ready for use .; 6 shows an illustration of the drive for the tape application device; Fig. 7 a Section through the first toothed ring, which is on the device chassis with a support gear is supported; 8 to 11 different switching states of the gear drive, and although in FIG. 8 during the application process, FIG. 9 at the end of the application process, FIG. 10 during the return of the magnetic tape into the cassette, and FIG. 11 at the end the return process; Figs. 12 and 13 show a mechanism for pressing the magnetic tape to the tape drive shaft by the pressure roller with the assistance of an electromagnet in pressing position or after approval; Figures 14 and 15 are plan views and side view of guide elements for guiding the movement of the pressure roller during the mooring process; Fig. 16 is a side view of the pull-out pin; Fig. Fig. 17 is a partial view showing the rapid transport condition; Fig. 18 shows the fast one Partial view showing return; 19 is a view of a braking element; Fig. 20 and FIG. 21 is a plan view of the pushbuttons and a side view of a pushbutton with an adjacent one Lever mechanism in neutral position of the pushbuttons; 22 and 23 are plan views the pushbuttons of the device and side view of a pushbutton with one in the on position locked button; 24 to 26 show the latching mechanism of the control pushbuttons in the neutral position and in two switch-on positions directed towards different sides.

Fig. 1 shows a plan view of the mechanism of the video recorder in one embodiment according to the invention in the switched-on state and without tape cassette and magnetic tape.

The individual parts of the mechanism are identified as follows: One Arrangement of control buttons 1; a wheel for the dispensing tape reel 2; a wheel for the receiving tape reel 3; a pressure roller 4; a pull-out pin 5; a rotary head 6; a sound control head 7; one erase head for the entire bandwidth 8th; a sound erasing head 9; a tape drive shaft 10; a flywheel 11; a first Toothed contact ring 12 to which the pressure roller 4 is attached by means of a pivot lever is; a second toothed ring 13 on which the pull-out pin 5 is seated; a diving anchor network 14 for pressing the pressure roller 4 against the tape drive shaft 10; a drive roller 15 for driving the wheel 3 for the receiving reel; a transmission gear for the quick drive 16; a transmission gear for the return 17; an engine 18; a transmission gear that controls the rotation of the motor 18 on the first tooth ring 12 and the second ring gear 13 transmits; a diving anchor magnet for the automatic Stop 201 A detailed description of the construction and how it works now joins.

The cassette used in the present video tape recorder is the The smallest at the moment and is about 106 mm wide, 68 mm long and 12 mm thick. The video magnetic tape 24, which is wound on two tape tracks 22 and 23, is located located inside the cassette 21, which is shown in plan view in FIG. 2 and in bottom view in Fig. 3 and in side view in Fig. 4 is shown. The cassette 21 has on one Narrow side a lid 25, which can be opened and closed at 26 on the cassette housing hinged, is. A spring presses the cover 25 in the closing direction.

Located on the front edge of the cassette bottom towards the cassette opening a recess 27 in which the pressure roller 4 and a recess 28 in which the pull-out pin 5 can intervene. Fig. 4 shows the on a cassette carrier 29, which is arranged above the tape drive wheels 2 and 3, attached cassette 21. The cassette carrier 29 has supports 30, 31, 32 and 33, of which the supports 32 and 33 still have extensions 34 and 35 that cover the lid 25 of the cassette lift. When the cassette 21 is placed on the cassette carrier 29, then it hits Lid 25 against the extensions 34, 35 and is thereby pressed into the open position and held, as shown in FIGS. 4 and 5.

At the same time, the pressure roller 4 then lies on the first toothed ring 12 is hinged, and the extraction pin 5 on the second tooth ring 13 within of the recesses 27, 28. To pull the magnetic tape 24 out of the cassette and into the positioning position shown in solid lines in FIG. 5 (state for recording or play), the pressure roller 4 and the pull-out pin are located 5 initially in the position indicated by dashed lines within the recesses 27 and 28 on the back of the spanning the cassette opening, dash-dotted in Fig. 5 drawn band section 24. If the first and second toothed ring 12, 13 then rotated in mutually opposite directions, whereby the pressure roller 4 and the pull-out pin 5 are moved in the loading direction, then the magnetic tape 24 pulled out of the cassette. In this way, the magnetic tape 24 is attached to the electrically decisive elements such as the rotary head 6, the sound control head 7, the erase head 8 applied for the entire bandwidth and the Tonlöschkopf 9 and also from the Pressure roller 4 pressed against the tape drive shaft 10, so that then the motor 18 to the tape drive shaft 10 provides rotation for the tape run and that Magnetic tape from the friction roller 15 on the take-up reel wheel 3 onto the take-up reel 23 is taken up while recording or playing.

The rotation of the toothed rings 12 and 13, which is necessary for the creation of the Magnetic tape is necessary, takes place via a gear drive connected to the motor 18 19. For this purpose, as shown in FIG. 4, a pinion 36 is seated on the shaft of the motor 18 and can be switched into two gears 37, 38 intervention, which are shown in FIG. 6 in the neutral position. The gear 37 meshes directly with it a larger gear 39, while the gear 38 with the larger gear 39 over a reverse or intermediate gear 40 is engaged.

The gear 37 is seated on a T-shaped pivot plate 43, which is at its two opposite ends carries pins 41, 42 while it is in the middle mounted between these two ends on the shaft 44 of the larger gear 39 is. The pin 41 is pulled by a spring 45, so that the gear 37 in the direction is pulled onto the pinion 36. The gear 38 sits at the end of one arm of a Angle lever 47, which with its center on the shaft 44 of the larger gear 39 mounted and so loaded by a spring 48 on a pin 46 of the other end of the lever arm is that the gear 38 pivots against the pinion 36. The two levers 43 and 47 can be switched so that the larger gear 39 either in forward or is driven in reverse direction. For a speed reduction the larger gear 39 with a pinion 49 on the same shaft in connection and is in mesh with a reduction gear 50 r that with a further pinion 51 is equiaxed and connected.

There is a toothed ring on the inner circumference of the Anlegerzahriringes 12 Groove in which the carrier gears 52, 53, 54 engage, which thereby hold the toothed ring 12. One of the carrier gears 52 is connected to a gear 55 which is connected to the pinion 51 meshes, which either via the gear 37 or the gear 38 with the motor 18 is in drive connection so that the first toothed ring 12 forward or is set in reverse rotation. The rotation of the first toothed ring 12 is Another gear 56 is driven, which engages in the toothing of the groove in the ring 12. The movement of the first toothed ring 12 is in this way via a with the gear 56 fixed pinion 57 transferred to the second toothed ring 13, the rotatably supported on the circumference of the rotary head 6 is. When switching of the gear 37 rotate the first and second contact tooth rings 12, 13 in the direction the arrows indicated in Fig. 5, whereby the pressure roller 4 and the pull-out pin 5 of the rings 12 and 13 emerge from the recesses 27, 28 of the cassette 21 and pull out the magnetic tape 24 from the cassette 21 and against the peripheral surfaces of the rotary head 6. pie pressure roller 4 presses the magnetic tape 24 against the tape drive shaft 10 what the plunger magnet 14 provides, which is to be described below by a Mechanism is activated and the magnet now runs from the delivery side the cassette via the pull-out pin 5, the erase head 8 for the entire bandwidth, the rotary head 6, the audio erasing head 9, the audio control head 7 and the tape drive shaft 10 back to the cassette. The carrier gears 53, 54, which form the first tooth ring 12 on its inner circumference are on shafts 59 as shown in FIG. 7 attached, which is mounted on the chassis C with the interposition of support bodies 58 are.

A locking mechanism in the end positions of the tape applicator has two circular sector-shaped recesses 60, 61 of different depths on the outer circumference of the ring 12, in which two different rollers 62, 63 enter can, as shown in FIGS. 9 and 11. The latching at the end of the The application process is shown in FIG. 9, which shows how the roller 63 enters the recess 61 intervenes. This roller 63 is mounted at the end of a pivot lever 66 which is around a pin 64 is pivotable and is loaded by a spring 65 so that the roller 63 always presses against the outer circumferential surface of the ring 12. The pivot lever 66 is positioned in relation to the ring so that it is in the direction of rotation of the ring of the creation process is opposite. In a V-shaped recess 67 in the pivot lever. 66 is engaged by the pin 41 seated on one arm of the T-shaped pivot plate 43 a. When the roller 63 is in the recess 61 in the peripheral surface des.Ringes 12 slides in while the ring 12 rotates in the investing direction, then the lever 86 pivots in the direction of the small, indicated in Fig. 9 arrow and moves the pivot lever 43 against the pin 41 in the V-shaped recess 67 the force of the spring 45 in a pivoting movement about the shaft 44, so that the gear 37 is detached from the pinion, 36. The ring 12, which until then on the gear 37 in the application direction was driven, now stops.

Rotates when removing and returning the magnetic tape to the cassette the ring 12 in the opposite direction until the roller 62 in the Well 60 falls into it. In the .eip # e] n, the roller 62 is seated at the end of one a pin 68 rotatable and loaded by a spring 69 pivot lever, that the roller 62 is pressed against the outer periphery of the ring 12, wherein the Positioning of the lever arm of the pivot lever 70 carrying the roller 62 is such that that the roller 62 which has jumped into the recess 60 prevents the rotation of the ring 12 locks against the feed direction. At the end of a second lever arm of the pivot lever 70 there is a hook 71 that fits onto the pin 46 on the L-shaped pivot lever plate 47, on which the gear 38 sits for reverse, is tuned. When the roll 32 while removing the magnetic tape according to FIG. 10 slides into the recess 60, as shown in Fig. 11, the swing lever 70 is turned in the direction of the arrow pivoted, whereby the pivot lever plate 47 about the shaft 44 via the pin 46 is rotated and thereby the gear 38 comes out of engagement with the pinion 36. The ring 12, which has been rotated in the direction of tape removal by the gearwheel 38, then remains in this position. The recess 60 is located in the circumferential surface of the ring 12 at such a point that the pressure roller 4 and the pull-out pin 5 within the recesses 27, 28 of the cassette 21 are located, when the roller 62 enters the recess 60. In contrast, the recess 61 is of this type attached that the pressure roller 4 and the pull-out pin 5 are in the end position of the application process when the roller 63 enters the recess 61.

The gear 37 for the forward direction and the gear 38 for the reverse direction are played by a play button (PLAY) or

switched by a record button (REC) within button group 1, these keys being self-locking keys, the mechanism of which is described below will. When the (PLAY) or (REC) button is pressed, a Slide plate 74 actuated, which is loaded by a spring 75 against the actuation direction and which has an actuating cam 76 at its front end. The actuation cam 76, which can be seen in Figure 11, has two cam surfaces 77, 78 of different ones Deflection, which is against the pin 42 of the T-shaped pivot plate 43 with it Press the located gear 37. When the pin 42 from the spring 45 against the cam surface 77 is pulled, in other words, if neither button 72 or 73 is pressed, then the gear 37 is moved away from the pinion 36, so that on the rings 12 and 13 no rotation is transmitted. However, if one of the buttons 72 or 73 is pressed, then the common slide plate 74 is displaced so that the cam surface 78 is at Pin 42 comes to rest, whereby the # T-shaped pivot plate 43 from the spring 45 is pivoted somewhat and thereby the gear 37 meshes with the pinion 36. Of the Motor 18 now drives the two rings 12, 13 via the gear transmission and thus moves the pressure roller 4 and the pull-out pin 5 in the tape application direction.

The opposite edge of the common slide plate 74 has stepped Cam surfaces 79, 80 on the pin 46 of the L-shaped swivel lever 47 come to rest, which carries the gear 38 for reverse rotation of the rings. if the cam surface 49 limits the pivoting of the pin 46 by the spring 48, In other words, when one of the actuation buttons (PLAY) or (REC) is pressed is, then the gear 38 is pivoted out of the pinion 36. On the other hand, the Stop key (STOP) is pressed, then occurs in the tape attaching state shown in FIG the automatic stop mechanism in effect, using the play button (PLAY) or the record button (REC) by its self-locking mechanism in the control button group 1 are released and at the same time the common slide plate 74 due to the Spring 75 returns to its original position. The pin 46 on the L-shaped pivot lever plate 47 then slides from the cam surface 79 onto the cam surface 80, so that the spring 48 the pivot lever plate 47 can pivot slightly and the gear 38 for the reverse rotation comes into engagement with the pinion 36. This removes the rings 12 and 13 from the Infeed turned back to the state in which the tape was not in the video recorder is introduced.

When this return process is finished and the roller 32 into the recess 60 has entered, then the pin 46 on the L-shaped pivot lever plate 47 limited by the hook 71 on the pivot lever 70, even if the pin 46 on the Cam surface 80 is applied. This does not mean that the rings run backwards governing gear 38 meshes with pinion 36 so that rings 12 and 13 stand still and cannot be turned any further.

When you press the play button (PLAY) or record button (REC) comes the gear 37 for forward rotation with the pinion 36 via the cam surface 76 of FIG common slide plate 74 engaged so that the rings 12 and 13 in # tape application direction are driven. When the application of the magnetic tape is finished and the pressure roller 4 and the pull-out pin 5 with the magnetic tape together the in # Fig. 12 shown Position reached have, the roller 63 penetrates into the recess 61 on the ring 12, so that the gear 37 lifts off the pinion 36 and thus the application process is finished. On the pivot lever 66 carrying the roller 63 there is a a switch 81 acting lever arm 82 via which the plunger magnet 14 is switched when the creation process is finished. At the extreme end of the plunger 14 a presser foot 83 which can be pivoted about a pin 84 and which has a contact surface is attached 85 presses the pressure roller 4 against the tape drive shaft 10 and also over a transmission rocker 87 is connected to a long slide rod 86, via which brought the friction wheel 15 into contact with the wheel 3 for the take-up reel or is moved away from him so that this wheel 3 in the playback or recording process in Rotation is offset. When the plunger magnet 14 is actuated and goes into the position of FIG. 12, presses the contact surface 85 the axis of the pressure roller 4, whereby this the magnetic tape 24 between them and the tape drive shaft 10 pinched, so that the tape from the shaft 10 without nudging is driven.

A thumb 88 on the trigger lever 83 rests on one end of the rocker 87, which can pivot about a hinge pin 89 and with its other end under one Protrusion 90 of the long slide rod 86 engages. The friction roller 15 sits on one around a pin 91 pivotable arm 92, which with a spring 95 with an eye 94 on the slide rod 86 is connected. When the magnet 14 is excited, the friction roller 15 against a smaller-diameter section 96 of the wheel 3 for the take-up reel pulled and thus transmits the wheel 3 from a drive mechanism to the friction wheel 15 guided rotation.

When the playback or recording is finished, the Stop button (STOP) pressed, whereby the magnet 14 is de-energized, and releases the pressure roller 4, which now no longer presses against the tape drive shaft 10. The pin 42 on the T-shaped pivot plate 43 with its gear 37, which is of the Drive sprocket 36 moves away due to roller 63 entering recess 61, rests against the cam surface 77 of the common slide plate 74, which by actuation the stop button (STOP) goes back, so that the gear 37 is no longer in the pinion 36 can intervene. At the same time, the pin 46 lies on the L-shaped pivot lever plate 47, which carries the reverse rotation gear 38, against the cam surface 80 on the common slide plate 74 because the roller 62 on the peripheral surface of the Ring 12 (not in the recess 60) rests and the hook 71 of the pivot lever plate 70 has moved away from pin 46. At this moment there is gear 38 for reverse rotation with the pinion gear 36 engaged, causing the rings 12 and 13 return to the unloaded state of the video recorder. Even if the plunger magnet 14 is switched off so that the ring can return to the discharge state, must the magnetic tape 24 can be wound into the cassette 21. The long slide bar 86 is provided with a rocker arm 97 for this purpose, the slide rod 86 on it prevents the spring 95 from being pulled to its rest position when the plunger magnet 14 is switched off, so that the friction wheel 15 continues against the smaller diameter Section 96 of the wheel 3 for the take-up reel is advancing. The rocker arm 97 is around one Pin 98 is pivotable in its center and engages between two bends 99 and 100 on the long slide rod 86, while the second rocker arm end on the pin 42 of the L-shaped pivot lever plate 47 rests. In the discharged state, in which the Reverse drive gear 38 meshes with drive pinion 36, pin 46 pushes on the swing lever plate 47 against the other end of the rocker arm 97 and tried this around its hinge pin 98 so that the rocker arm 97 at the crank 99 the Slide rod 86 prevents when switching off the plunger magnet 14 in their To return to the starting position. It follows, that even during the During the discharge process, the friction wheel 15 engages on the smaller diameter section 96 and consequently the wheel 3 for the take-up reel ensures that the magnetic tape 24 is wound up.

The mechanism that ensures that the magnetic tape 4 is correctly inserted into the device with the aid of the rings 12, 13. As shown in FIGS. 14 and 15, the pressure roller 4 is about an axis 103 at the end of an arm 102 rotatable, which by means of an axle pin 101 with a Cylinder 113 is connected, which is stuck on the ring 12. At the very end of the Arms 102 there is a pin 104. In the intermediate area of the arm 102 between it The joint axis 101 and the pressure roller 104 is a small lever arm 106 on the arm 1.02 hinged by means of a hinge pin 105, which has a tapered roller at its free end 107 carries with the pressure roller 4 parallel axis. The hinge axis 101 is firmly seated on the arm 102 and can move vertically with respect to the cylinder 113, wherein a spring 103 surrounding the hinge axis 101 upwards and radially outwards the arm 14 pushes away from the ring 12 in the direction of the arrow. The tapered roller 107 is also pressed radially outwardly away from the ring 12 by a spring 109. On chassis C. In the loading pivot area of the pressure roller 4, a loading guide 110 is attached to which the pressure roller 4 and the tapered roller 107 due to them from the ring 12 radially outward pivoting springs 108 and 109 between the starting point of the application or loading movement up to their end point. In the area of the loading or docking section of the pressure roller 4 is a guide plate 112 with a sloping downward guide surface 111, against which the head of the pivot axis 101 presses from below, on an upper support plate 113a attached, which in turn carries the heads 7, 8 and 9. The magnetic tape 24, which is pulled out of the cassette by the pressure roller 4, is when applied or loading the VCR along tape guide chain 115 applied, the opposite a head gap 114 in the cylinder part of the rotary head 6 a For this purpose, the head end of the joint axis 101 is inclined along the downwardly inclined guide surface 111 of the guide plate 112 in correspondence with Guide groove 115 out so that the pressure roller 4, around which the magnetic tape 24 is looped around, against the force of the spring 108 between arm 102 and cylinder 113 is pressed down and the magnetic tape 24 is obliquely downwards to the tape guide groove 115. of the rotary head 6 from the side of the rotary head on which the pull-out pin is located 5 is located up to the pressure roller 4, with which the purpose is achieved that the Video signal recording on the magnetic tape 24 is inclined.

The arm 106 of the tapered roller 107 runs towards the end of the tape application movement to a pin 116 on the chassis C, causing the tapered roller 107 to move the Magnetic tape 24 runs around, is held spread outward. This prevents that the back of the tape when returning to the tape cassette to the rotating head 6 and grinds the tape section running over the heads 7 and 8.

The pull-out pin 5 is according to Figures 14 and 16 at the upper end of a Spindle 118 mounted on an arm 117, which is on the second Bändanlegerinq 13 rises. On the arm 117 there is also a swivel plate 120 on a hinge pin 119 attached. The attachment of the pivot plate 120 by the hinge axis 119 the arm 117 lies opposite the pull-out pin 5 somewhat inwards towards the ring 13, while opposite the pin 5 to the outside on the pivot plate, a tape guide pin 124 is attached. The pivot plate 120 is shaped to support the spindle 118 having a bow portion extending to tape guide pin 124, and has a projection 122 at the outer free end with which it is attached to a pin 121 starts running on the chassis in the end of the tape application movement in Opposite to the pin 116 is seated. The pivot plate 120 can move with her Apply arcuate section 123 against the spindle 118 of the pull-out pin 5. In the last Movement section of the pull-out pin 5 during the application movement is running Projection 122 of the pivot plate 120 against the pin 121, so that the pivot plate 120 is pivoted outwards against the action of a spring 124 'and thereby the tape guide pin 124 lifts the magnetic tape 24 from the outer surface of the pull-out pin 5, so that the magnetic tape 24 does not run with the back of the cassette out Tape section on the tape section guided over the erase head 8 and the rotary head 6 can grind.

Thus, as shown in Fig. 5, the magnetic tape 24 comes off the tape reels 22, 23 withdrawn in the cassette 21 so that it is removed from the tape reel 23 on the Spool drive wheel 2 sits, over the tape guide pin 124, the pull-out pin 5, the erasing head 8 for the entire bandwidth, the rotary head 6, the sound erasing head 9, the sound control head 7, between the tape drive shaft 10 and pressure roller 4, via the pin 104, again via the belt drive roller 4 and via the tapered roller 107 is performed.

Based on Figures 17 and 18, the drive for the fast Forward and for the return of the magnetic tape are described. One key (FF) for the Fast forward locks when pressed. One on a slide gate 125 between the belt drive wheels 2 and 3 rotatably mounted transmission gear 126 for high-speed drive comes with a toothing on the outer edge of the bandant wheel 3 Engaged as shown in Fig. 17 so that the tape drive wheel for the take-up reel 3 is rotated via the gear 126 in the winding direction, the gear 126 is rotated via a drive mechanism to be described and the slide valve 125 is pulled by a spring 127 in the direction of its disengaged position.

If the (REW) key is pressed for fast rewind, which is displayed in locks in the pressed position, then another slide 12 # 8, which is located between the belt drive wheels 2 and 3, a transmission gear 129 with circumferential teeth on the tape drive wheel 2 for the dispensing tape reel and at the same time engaged with the high-speed transmission gear 126, as shown in FIG. 18, so that thereby rotation of the gear 126 on the reverse gear 129 and onto the tape drive wheel 2 for the dispensing reel in the rewinding direction is transmitted. The slide valve 128 is disengaged in the direction of disengagement by a spring 130 burdened.

The high speed transfer gear 126 and the reverse transfer gear 129 can be shifted between gears 2 and 3, with gear 126 with the drive wheel 3 for the receiving reel and the gear 129 with the gear 126, which is stationary, and with the drive wheel 2 for the dispensing tape reel be coupled. So it depends on the axes of the gears 126, 129 and to choose the positions of the slide valves 125, 128 so that the desired operations expire. The drive wheels 2 and 3 and the gear 129 are advantageous made of synthetic resin, while the gear 126 is made of metal, so that the metallic gear 126 which is set in rotation by the drive source is, with the ring gear of the fixed drive wheel 3 and the gear 129 in Intervention comes and thereby a good power transmission is guaranteed. The gear 129 on slide 125 moves when the quick return button (REW) is pressed, somewhat against the force of the spring 127, and at the same time the gear wheel comes 129 with the ring gear of the drive wheel 2 for the dispensing reel in engagement, whereby a good power transmission connection via the gears 126 and 129 is given.

A brake 131 is seated on the front ends of the slide valves 125, 128 of T-shaped shape, the two legs of the elastic brake pads 132, 133 carries which on the smaller-diameter sections 96, 96a of the belt drive wheels 2, 3 come into play when the brake is on a slot 135 penetrating Pin 134, which is fixed in the chassis C, 'is displaced. One at the pen 134 supporting, two-armed spring 138 engages behind on the T-legs of the brake 131 seated pins 136, 137 and pushes the brake 131 in the direction of the belt drive wheels 2, 3, d. H. in braking direction. With one in the middle of the leg of the T-shaped Braking element 31 located projection 139 presses the brake on the front ends 140, 141 of the sliding slide 125, 128, -so that when one of the sliding slides 125 or 128 is advanced by pressing a key (for fast forward or for rewind) the brake 131 is pushed back against the force of the spring 138 and thereby the Brake pads 132, 133 from the smaller diameter sections 96, 96a of the belt drive wheels 2, 3 are lifted.

At the lower end of the trunk of the T-shaped brake element 131 is located a dovetail cutout 142 with an inner guide slot 143, in which a guide pin 144 attached to the chassis C is able to engage. If an attachment 145 attached to the side edge of the braking element 131 is over two rocker arms 148, 149, which are pivotable about hinge pins 146, 147, with one Lateral extension 150 coupled to the elongated slide rod 86 (see FIG. 13) is, then this side lug 150 pushes during the playback process, one Video recording and tape unloading, with the slide bar 86 is in the active position, the projection 145 on the braking element 131 via the rocker arm 148, 149 upwards, so that the brake 131 pivots about its guide pin 134 and the pin 144 with the side wall of the dovetail cutout 142 in contact comes so that the brake pad 132 of the smaller diameter Section 96 is lifted off, while the brake pad 133 is smaller in diameter Section 96a is still available. So while the belt drive wheel 2 is braked, the tape drive wheel 3 for the receiving reel can be driven by the friction wheel 15 rotate and thereby holds the magnetic tape 24 closed.

In addition, there is another brake for the belt drive wheel 2 151 (see Fig. 1) 1 which is pivotably mounted on the chassis, with a brake pad is biased by a spring in the direction of the belt drive wheel 2 and with a Tongue 152 on arm 117, which carries the pull-out pin 5, comes to rest, whereby the brake can be released from the belt drive wheel 2. One of the first tongue 152 with respect to the second tongue 153 opposite the pivot axis engages at one end of a cassette attachment housing on (not shown, this hinged to the chassis housing accommodates the cassette and can perform an opening and closing movement against the cassette carrier 29), so that the brake 151, when the unloading process is finished, is pivoted, and the tongue 151 releases the cassette receiving case so that it can be opened. In other words, while the VCR is loaded with the video tape, it locks the brake member 151 the cassette receiving case so that they are not opened can.

The buttons of control button group 1 are self-locking, which is shown in Connection with Figures 20 to 23 will be described below. On the chassis of the Device are screwed on angles 154, 155, between which an axis 156 is horizontal extends, the support lever 154 to 161 for the same distances the individual buttons (return button REW, fast forward button FF, stop button STOP, Play button PLAY, video recording button REC). At angles 154, 155 are Locking holder 162 of L-shaped shape attached, as can be seen from Fig. 21, which a side view of the play button PLAY shows. A feather 163 sits at one end of the angle 155 and engages the lower surface with the other end of the latching holder 162 so that it is loaded in a clockwise direction. A feather 164 is wound on the axle 156 and engages the support lever with one spring end 160 of the key and with the other on a spring seat 165 fixed to the housing, so that the support lever 160 is always loaded in the direction of the switch-off position. The lever 160 for the play button and the other levers 157, 158, 159 and 161, as shown in Fig. 21, protrusions 166 protruding from them so that when one of the levers 157 to 161 is depressed, the projection 166 via a sliding surface 167 against the retainer 162 starts up and then holds the lever in the on position while the retainer 162 in the disengaged position of the lever with its tip on a stopper 168 pending.

On each lever 157 to 161 there is a pressure finger 169a, the against a leaf spring 169 at the actuating end of the return slide valve 128, des Slider 125 for fast forward, the playback slider 72 or the Slide 73 for video recording pushes. When one of the levers 157 to 161, the leaf spring 169 ensures that the slide bars 128, 125, 72 or 73 can be inserted and held locked in the switched-on position. The reason for the use of the leaf springs 169 is the fact that feed differences are recorded because the pressure finger 169a covers a greater distance than the slide valve 128, 125, 72 and 73, so that the desired actuating effect of the pressure finger 169a with Security is achieved. In addition, the extreme end of the lever 159 is for the stop button (the extreme end corresponding to the pressure finger 169a) on one Stopper 170 so that the tip of the latching holder 162 does not come with a projection (corresponding to the projection 166) on the chassis C engages so that the lever for the stop button (STOP) is not locked.

When the play slide 72 or the video capture slide 73 is pressed, then the slide valve 128 is for return and the slide valve 125 for fast forward, i.e.

H. the return key (REW) and the key for fast forward (FF), blocked so that they cannot be pushed in: if, on the other hand, the slide valve 128 or the slide bar 125 is pressed, then the slide bars 72 and 73, i.e. the play button (PLAY) and the video record button (REC) are locked, that they cannot be operated. For this purpose, projections 171 to are in detail 174 on the corresponding slides 128, 125, 72 and 73 on the actuation side of the corresponding levers 157 to 161 are attached, as shown in Fig. 24. aside from that is a locking slide plate 179 with inclined surfaces 175 to 178 by means of longitudinal slots 180, 181 guided displaceably on guide pins 182, 183 fixed to the chassis, see above that the slide plate in a sliding direction of the lever 157 to 161 crossing direction can be moved. In addition, the locking slide plate has 179 in its center a projection 184 on which a spring 186 engages, which the Tried to keep locking slide plate 179 in its central position. the The spring is wound around a pin 185 fixed to the frame and is supported by each a spring arm on a further pin 185a fixed to the frame. For example, if As shown in Fig. 26, the PLAY key is pressed, then the shifts Lever 160 the slide valve 162, so that its projection 173 against the inclined surface 177 the locking slide plate 179 starts up and pushes the plate 179 to the left; it is biased back into the central position by the spring 186. For the video record button (REC) the same applies. In this condition, the projections 171, 172 are in front of the Contact surfaces 187, 188 so that the levers 157, 158 cannot be pressed in. If, on the other hand, the lever 158 is pressed by pressing the fast forward button FF, Then comes the projection 1-72 on the slide 125 on the inclined surface 176 of the locking slide plate 179 to the plant, so that it is pressed to the right and by the spring 186 in the return direction is charged as shown in FIG. The projections 173 and 174 are on the other hand in front of the contact surfaces 189, 190 of the locking slide plate 179, so that the lever 160 and 161 are locked and cannot be pushed in.

The drive wheel 2 for the dispensing tape reel and the drive wheel 3 for the receiving tape reel and the tape drive shaft 10, as shown in Fig. 1 indicated by dash-dotted lines, driven in such a way that a pulley 191 on the motor drive shaft with the flywheel 11 by a belt 193 and a another pulley 192 with a pulley 195 of gear 16 for fast Forward connected via a belt 194 while an additional pulley 196 on the shaft of the gear 16 with a pulley 198 via a belt 197 is connected, which sits on the shaft of the friction wheel 15.

An automatic stop mechanism actuates the pull magnet 20, the via electrical switching elements, not shown, which mark the end of the discharge process notice is turned on. The pull magnet 20 detects, as in FIGS shown to 23, an actuating arm 199, the with its hook 200 at the front end L-shaped retainer 122 on the side of the video recording button REC detected, so that the plunger pull magnet 20 engages the retainer 162 when actuated against the force the spring 163 is pivoted and thus by the locking projection 166 on the levers 157, 158, 160, 161 of the individual pushbuttons pressed.

It should also be mentioned that with respect to the rotary head 6, the tape drive shaft 10 and the heads 7, 8 and 9 of the position of the drive wheel pair 2 and 3 are opposite. In the illustrated embodiment, the axis of the tape drive shaft are specifically located 10, the axis 201 of the rotary head 6 and the center point between the spool drive wheels. 2 and 3 on a straight line. Also the middle of the first toothed band ring 12 and the second band application toothed ring 13 lie on this straight line. So it succeeds the pressure roller 4 and the pull-out pin 5 in the loading process in which the tape to the tape drive shaft 10 and against the heads 7, 8 and 9 is placed in the Proximity of the rotating head 6th, which is favorable for pulling out the tape is. The mechanism required to load the device with the magnetic tape is thus made simple, and the cassette is only small in size, so that the entire mechanism can be kept simple and compact.

The foregoing description shows a switching device for the Applying or unloading the magnetic tape using a toothed ring with a pressure roller or pull-out pin, with the help of which the magnetic tape is pulled out of the cassette and can be placed in a position in the device in which a recording is made or the signal content of the magnetic tape can be played. The transmission gear train, that connects the drive motor with the toothed ring, rotates it in the feed direction or in the unloading direction. With the help of the group of control buttons, the transmission gear switched in its direction of rotation in order to change the direction of rotation of the ring, and there is a stop mechanism at the end of the loading or unloading process the transmission switches over so that there is no longer any connection between the motor and the toothed ring is there, so that the latter is then stopped. The transmission gear contains the swivel lever plate. on the rotatable the decisive for the forward direction of rotation Gear sits, and another swivel lever plate, which is for reverse rotation authoritative gear carries. By a cam section on a slide valve that can be actuated by the record and play buttons from the group of control buttons is, the pivot lever plates are pivoted. In detail, the cam section pivots when the record or play button is depressed, the first rocking lever plate in such a way that the gear wheel, which is decisive for the forward direction of rotation, is coupled to the motor so that the toothed ring rotates in the application direction while disengaging the record or play button, the second pivot lever plate is pivoted and the gear wheel that is decisive for the reverse direction of rotation is coupled to the motor, which then inevitably rotates the toothed ring in the unloading direction. Of the described mechanism can the application of the magnetic tape to the rotary head and the other functional parts and also the unloading in the initial state exactly and perform reliably and has a very compact structure because it will no additional motor is required for the docking and unloading process, but the Belt drive motor serves as the drive source for these operations.

There will thus be a reduction in energy consumption and a weight loss achieved, which is particularly beneficial for a portable magnetic tape video recorder represents.

L e r s e i t e

Claims (1)

Claim loading device switching mechanism for a magnetic tape video recorder, characterized by a belt applying toothed ring (12; 13) which is connected to a pressure roller (4) or a pull-out pin (5) is used to pull out the video tape (24) from a cassette (21) and applying the magnetic tape (24) in recording or playback state, a rotation of a drive motor (18) on the ring (12; 13) transmitting transmission gear, through which the ring (12; 13) in contact or unloading direction is rotatable, a group of control buttons (1) for switching of the transmission gear for changing the direction of rotation of the ring (12; 13) and a ring rotation terminating mechanism in the position of the ring (12; 13), in which the application or discharge process is ended, which the transmission connection of the transmission from the motor (18) to the ring (12;) 13) interrupts, wherein the transmission has a pivot lever plate (43) with one for forward rotation of the ring (12; 13) decisive gear (37) and a pivot lever (47) with a decisive for backward rotation of the toothed ring (12; 13) gear (38). has which pivot lever plates (43, 47) via a cam adjusting portion (76) on a slide (74) by a record or play button (REC, PLAY) from the group of control buttons (1) can be actuated, and the. Control cam section (76) when pressing the record or play button on one of the rocking lever plates (43) acts so that the gear for forward rotation (37) with the drive motor (18) comes into connection and thereby the contact toothed ring (12; 13) in the contact direction rotates, while when you release the record or play button (REC, PLAY) the Control cam section (76) the other pivot lever plate (47) pivoted in such a way that that the reverse rotation gear (38) engages with the motor (18) and the toothed ring (12; 13) is rotated in the unloading direction.