NL8301266A - Mode switch for magnetic-tape cassette recorder - turns on and off using switch wheel avoiding complex servo-mechanisms - Google Patents

Abstract

The switch has an adjustment head plate and a switch mechanism consisting of a switch wheel controlling a switch element and driven continuously whilst the recoder is on. A deflector is coupled to at least one spool mandrel and controls the position of the switch element on the switch wheel when the tape is running. A control surface on the switch wheel displaces the switch element when the tape is stationary, and a connection element always moves in the same direction to put the recorder in another mode when the tape is stationary. The connection element (52) can be coupled to the head plate to displace it. A ratchet mechanism (57) locks the head plate in at least one position w.r.t. the cassette. The connection element releases the ratchet mechanism when displaced again by the switch element (46). The head plate then moves back from the cassette position.

Description

'% _' 4 «PHD.83-036 1 N.V. Philips' Incandescent light factories in Eindhoven Switchgear for a magnetic tape cassette unit.

The invention relates to a switching device for a magnetic tape cassette device for switching an operating mode during tape standstill to another with a head plate which can be moved in the direction of the cassette and with a switching mechanism, comprising: - one during operation of the device continuously driven gear wheel, which controls a gear element, - a detection element, which is coupled to at least one winding mandrel 10 and controls the position of the gear element on the gear wheel during belt transport, - a steering groove on the gear wheel, which moves the gear element during tire standstill and - a connecting element which is always moved in the same direction by the switching element when the belt is stationary for switching the device into another operating mode.

Such a switching device is known from German Offenlegungsschrift 25 24 219. The switching mechanism hereby actuates via the switching element a connecting element designed as a locking slide, which serves only to unlock the key mechanism of the device. With this, the switching mechanism 25 is only able to switch off the device during tape standstill, whereby the head plate of the cassette is moved back. However, the switching mechanism is not able to move the head plate back to the cassette when it is switched on and to put the device into operation again 3q.

The object of the invention is now to provide a switching device with which it is possible to effect switch-off 8301266 PHD.83-036 2 »t 1> * and switch-on of the device via the switching and connecting element, without application of complex servo mechanisms, the switching operations always being caused by a switching wheel continuously driven in a certain direction during operation.

This is achieved according to the invention in that - the connecting element can be coupled to the head plate for displacing the head plate, - an arresting mechanism locks the head plate in a position moved to the cassette, - the connecting element is moved again when the switching element is controlled detent locking mechanism, and by unlocking the head plate is moved from the position moved to the cassette to a retracted position.

By using the locking mechanism, it is possible, by moving the connecting element via the switching element, in each case to perform both switch-on and switch-off functions in the same way. Since the connecting element performs the displacement of the head plate, both towards the cassette and also away from the cassette, commissioning and switching off can be carried out in a simple manner via this simple switching device.

According to a further embodiment of the invention, it is provided for the connecting element to cooperate with the head plate via a spring element, such that when the moving element is moved again, the connecting element is moved further in a continuous movement from the locked position towards the head plate moved to the cassette. , during which movement the detent 22 mechanism is locked. Due to the resilient coupling between the connecting element and the head plate, it is possible that the connecting element acting in one direction at a time can produce a flap, which is necessary for unlocking the detent mechanism, without the need for the locking mechanism 8301266 '* Λ PHD.83-036 3 the head plate is hindered.

According to another embodiment of the invention, it is provided that the locking mechanism consists of a heart-shaped cam, a guiding cam which is situated opposite the heart-shaped recess, the heart-shaped cam and a first pin which moves along the heart-shaped cam, the heart-shaped cam and the guide cam are located on the connecting element and the first pin is pivotally connected to the frame such that the pin is both movable along the heart-shaped cam, and can be moved by pivoting out of the engagement area with the heart-shaped cam. Thus, a detent mechanism is created, which can be effectively turned off, for example, when the device is taken out of operation, and can be easily reactivated, for example, by inserting a magnetic tape cassette in the device.

According to a further embodiment of the invention, it is provided that the locking lever is pivotally mounted on the frame and carries a second pin, which is inserted in a guide slot in an operating rod connected to a stop button, whereby the locking lever is pivoted by sliding the operating rod and the first pin is moved out of the engagement area with the heart-shaped cam. In this way, the locking mechanism is always automatically deactivated when the stop button and the associated operating rod are pressed. This operating rod can also have a combined action if it also serves for ejecting the cassette. According to another embodiment of the invention, it is provided that - an electric on / off switch for switching the circuit of a drive motor of the device can be displaced on the frame against spring force 8301266 \ PHD.83-036 4

f I

ί is guided, - on the operating rod and the head plate there are provided switching pieces which press apart contacts of the switch for opening the circuit, when the operating rod is moved inwards relative to the device or the head plate is moved out of the cassette moved position to the retracted position is moved, - the operating rod carries a cam which, when retracted, shifts the switch to an offset position, the contacts of the switch are out of range of the head piece switch piece, and - the head plate carries a cam which, when the switch position is shifted and the head plate is retracted, holds the switch in the shifted position until the head plate is moved again in the direction of the cassette.

This achieves that when a cassette is inserted into the device and a head plate which has been retracted, the contacts of the switch can be closed, the drive is switched on, so that the switching mechanism can be activated and the head plate can be moved towards the cassette.

25

According to a further embodiment of the invention, it is provided that the operating rod of at least one quick-flush button can be connected to the contacts of the switch, the contacts are closed by pressing the quick-flush button, the drive motor is started and the connecting element is moved again for moving the head plate in the direction of the cassette. Thus, the gg switching mechanism can be reactivated by briefly pressing the fast-winding button even with the cassette already inserted.

The invention is explained in more detail with reference to a number of exemplary embodiments shown in the drawing. Show: 8301266 \ PHD.83-036 5 »»

Figure 1 shows a view of the drive side of a magnetic tape cassette apparatus according to the invention in a first embodiment,

Fig. 2a shows a perspective enlarged view of a locking mechanism of the device in a first position, Fig. 2b the locking mechanism according to Fig. 2a in a second position, Fig. 3 a view of the magnetic head side of the magnetic tape cassette. device in a first tape-running direction, fig. k the magnetic tape cassette device seen as in fig. 3 »but in a second, opposite tape-transporting direction, fig. 5 the cooperation of a guiding slot device with control means and head plate in an explosion - view, fig. 6 shows the various positions of a control plate for controlling the guide slot device and of the head plate, fig. 7 shows a perspective view of the control plate and of a co-operating stop button for setting a preferred tape running direction, fig. 8 in a second embodiment of the device another guiding slot device and control means for pivoting the head plate, fig. 9 a view of the magnet front side of the magnetic tape cassette apparatus in another embodiment, wherein the apparatus is in an operating position, Fig. 10A is a view of the apparatus of Fig. 9, located in an off position, Fig. 10B is a view of the apparatus of Fig. 9 »in © and position with the cassette removed.

The magnetic tape cassette apparatus according to the invention has, as shown in Fig. 1, a frame 1 which, via a support 2, carries a drive motor 3 rotating only in one direction.

8301266 PHD.83-036 6

The drive wheel of the motor 3 guides a belt 5 which is guided via a guide roller 6 over flywheels 7 and 8 such that the flywheels rotate in opposite directions.

The flywheels 7 and 8 are rotatably mounted in the frame 1. The flywheel 7 is fixedly connected to a tone shaft 9> and the flywheel 8 is fixedly connected to a tone shaft 10. Furthermore, the flywheel 7 is connected to a gear wheel 11 and the flywheel 8 is connected to a gear wheel 12. Via a slip coupling, parallel to relative to the gear wheel 12, another gear wheel 13 is rotatably mounted on the flywheel 8. With the gear wheel 12 on the flywheel 8, a gear wheel 14 designed as a gear wheel is in continuous engagement. This gear wheel 14 is pivotable about an axis 15. The shaft 15 carries a pivoting arm 16, shown schematically in Fig. 1, on which the shift wheel 14 is rotatably mounted. Similarly, with the gear 11, a gear 17 continuously engages. This gear wheel 17 is rotatable about a pivot axis 18 by means of a schematically shown pivot arm 19.

20

As also shown in Figs. 3 and 4, winding mandrels 20 and 21 are rotatably mounted in the frame 1. These winding mandrels 20 and 21 are fixedly connected with fast-spool wheels 22, 23. Spindles 20, 21 play wheels 24, 25 are connected to the winding mandrels 20, 21 via slip couplings.

Fig. 3 shows how the play wheel 25 is driven by the gear wheel 12 via the switch wheel 14. Fig. 4 shows in the same way how the play wheel 24 is driven via the gear 17 by the gear 11 3Q.

A bracket 26, which is slidably guided in the frame 1, carries two sprockets 28, 29 side by side

A spring 30 always rotates the bracket 26 about the bearing 27 to the starting position shown in Fig. 1. The bracket 35-6 carries slidable guides 28a, 29a and a triangular recess 28b and a slot 29b in the frame 1, respectively.

Two buttons 31 and 32 are provided for fast forwarding and rewinding 83 0 1 26 6 '«4» »PHD.83-036 7. These keys 31 »32 are connected to sliders 35» 36 via the operating or key bars 33 and 34. These sliders 35 and 36 cooperate with the bracket 26. For this purpose the slide 35 is provided with a protrusion 37 and the slide 36 carries a ramp surface 38. The protrusion 37 and the ramp surface 38 cooperate with a pin 39 on the bracket 26.

When, by pressing the key 31, the projection 37 presses against the pin 39 on the bracket 26, the gear wheel 29 first engages with the gear wheel 13. Here, the pins 28a and 29a move in the direction of arrow b and c 'respectively. recess 28b and slot 29b, respectively. With further movement, the pin 29a moves further into the slot 29h according to the arrow b1, which results in the gear wheel 29 also engaging the fast-spool wheel 23. The winding mandrel 21 is hereby driven quickly and the magnetic tape is wound up quickly. When the other fast winding button 32 is pressed, the run-up surface 38 slides along the pin 39. The pins 20 28a and 29a move according to the arrows c and c *, respectively, so that the gear 29 with the gear 13 and the gear 28 with the fast reel 22 intervention. This drives the other winding mandrel 20 for fast rinsing.

25

A detection element 40, consisting of two discs 41,42 and a connecting rod 43, is connected to the winding mandrels 20,21 via slip couplings. A pin 44 is placed on the disc 42, which lies in a shift fork 45. The shift fork 45 is on a shift element 30. r,.

46 which is rotatable about a bearing 47 (see also fig. 2A and 2B). The shift wheel 14 carries a protruding and slightly elliptical cam 48 in the center.

The shifting element 46 grips over the shifting wheel 14 and carries a pin 49 which, when the shifting element is swiveled inward, slides around the circumference of the cam 48 when the shifting wheel is turned in the direction of an arrow 50. About the cam 48 a spiral steering wall 51 is located at a fairly great distance on the switching wheel 14.

8301266 * ψ PHD.83-036 8

This control wall 51 can also cooperate with the pin 49 on the switching element 46, when the detection element detects that the belt is stationary. In that case the pin 44 no longer presses against the shift fork 45 »where-5.

is no longer loaded inwardly in the direction of the cam 48 by the pin 49 on the switching element 46, but remains stationary and, when the switching wheel 14 continues to rotate in the direction of the arrow 50, ends up against the outside of the switching wall 51. Since the switch wall 51 is spiral-shaped, the switch element 46 is pivoted clockwise around the bearing 47, whereby the switch element 46 is pressed against a connecting element 52.

The connecting element 52 is a double-arm lever which can be pivoted about a bearing 53. As can be seen from Figs. 2A and 2B, the connecting element 52 is loaded clockwise by the influence of a spring 54. As a result, the movement of the switching element 46 tensions the spring 54.

The lever arm 55 of the connecting element 52 remote from the point of engagement of the switching element 46 carries a heart-shaped projection 56, which forms part of a locking mechanism 57. The locking mechanism 25 57 also includes a locking lever 58, which is arranged about an axis 59 relative to of the frame can be pivoted. D & axis 59 is parallel to the surface of the frame 1 and to an imaginary connecting line a between the tone axes 9 and 10. »The locking lever 20 58 carries a guide pin 60 on the side facing the heart-shaped projection 56, which is in a guide slot 61 is inserted into an operating rod 62 of a stop / eject button 63. The guide slot 61 is designed such that the detent lever 58, as also appears from Fig. 2B, is pivoted about the axis 59 in the direction of an arrow 54 when the stop / eject button is extended. Pushing out the stop / eject button 63 and the operating rod 62, respectively, is effected in the manner not shown in PHD.83-036 9 by sliding a magnetic tape cassette into the device. Fig. 2A shows the rod 62 in the retracted position, while FIG. 2B shows the rod 62 in the retracted position.

5.

The detent lever 58 carries a detent pin 65, which can be inserted into the engagement area of the heart-shaped cam 56 and move around the cam, which movement is enabled, for example, by a film hinge 66. In Fig. 2A, the pin 65 is pivoted out of the engagement area of the heart-shaped boss 56 since the rod 62 is depressed. In Fig. 2B, where the operating rod 62 has been shifted, the pin 65 is brought within the engagement area of the heart-shaped boss 56. This allows the pin 65 to cooperate with the heart-shaped boss 56 when the switching element 46 pivots the connecting element 52, as shown in Fig. 2B, counterclockwise in the direction of the arrow 67. During this pivoting away, the pin 65 has run along a side wall 68 of the heart-shaped projection 56.

A guide cam 69 ensures that the pin 65 enters a recess 70 of the heart-shaped cam 56.

A cam 71 is arranged on the lever arm 55.

As shown in Figs. 3 and 4, this cam 71 cooperates with a spring element formed by a leaf spring 72 and is guided in a longitudinal slot 73 in the frame 1. The leaf spring J2 presses with the free ends against holders 76 and 77 which are pivotally mounted on a head plate 74. This head plate 74 carries a magnetic head 75 in the middle and on both sides of the head 75 these holders 76, 77, in which rollers 78, 79 are mounted. Due to the spring force of the leaf spring 72, the holders are pressed against stops 74a and 74b, respectively, on the head plate 74.

The head plate 74 has flanged ends 80, 81. The flanged end 80 has a slot 82 in which a pin 83 is slidable, which is mounted on the pivot arm 16. As a result, in the position according to Fig. 3, the pivot arm 16 is pivoted about the shaft 15 in such a way that the shift wheel 8301266 i PHD.83-036 10 engages with the play wheel 25 and with the gear wheel 12. In a corresponding manner, Fig. 4 shows that the bent end 81 of the head plate 74 has pivoted the pivot arm 19 about the pivot shaft 18, whereby the gear 17 is engaged with the play wheel 24 and with the gear 11. Furthermore, in the position according to fig. 3, the pressure roller 79 is pressed against the tone axis 10, while in the position according to FIG. 4, the pressure roller 78 is pressed against the tone axis 9.

10

In the head plate 74, parallel to the connecting line between the tone axes 9, 10, longitudinal slots 84, 85 are provided, in which guided pins:. 86, 87 are slidable.

Fig. 5 shows, by means of an exploded view, in the head plate 74 guide pins 86, 87, which are guided in the longitudinal slots 84, 85. The guide pins are hereby displaceable parallel to the connecting line a between the tone axes. The holder of the 2Q guide pins 86, 87 on the head plate 74 is not shown in detail in the drawings. In a simple embodiment, the guide pins are attached to a cap-shaped plate as with thumbtacks. However, it is also possible to arrange the guide pins on the free ends of resilient tongues 25 mounted on the head plate 74.

Between the head plate 74 and the top side of the frame 1, a control plate 88 serving as a control means is arranged. This control plate 88 is provided with longitudinal slots 89, 90, through which guide cams 91 »92 protrude from the chassis plate. As a result, the control plate 88 is displaceable parallel to the imaginary connecting line a between the pitch axes 9 »10. The displaceability is indicated in fig. 6 by a double arrow 93.

The control plate 88 is provided at both ends 35 with mutually mirror-symmetrically arranged U-shaped guide slots 9 ^ - »95 · Of the U-shaped slots 94 and 95, one slotted leg 96, 97 is shorter and 8301266 ί PHD.83-03 $ 11 one slotted leg 98 »99 longer. The shorter legs are on the sides facing each other and the longer legs are on the facing sides of the slots. The connecting base 100 and 101 between the 5 shorter and longer legs is greatly widened.

Between the longer and shorter legs are material tongues 102 and 103, which are pointed at the ends facing the base 100, 101,

In the frame 1, mutually mirror-symmetrically arranged fork-shaped guide slots 104 and 105 serving as guide slot devices are provided with two legs corresponding to the fork teeth, of which one leg 106, 107 is each shorter than the other leg 108, 109. short legs on the 15 sides of slots facing away from each other and the long legs on the sides facing each other. The set of the fork is provided with a central entry slot 110, 111, which connects to the funnel-shaped base 112, 113 of the guide slot 104, 105. The distance between the legs of the U-shaped guide slots 95 in the control plate 88 is smaller than the distance 115 between the legs of the fork-shaped guide slots 104, 105.

Fig. 7 shows, by means of a perspective view, the control plate 88. The control plate 88 is provided with a stop II6, against which a nose 117 of an intermediate slide 118 can abut, which is parallel to the imaginary connecting line a between the pitch axes 9 and 10 is slidable. The intermediate slide 118 is provided with two stops 119 »120, against which a driver 121 of the stop button operating rod 62, which also serves as an ejector, can press. When the stop eject button 63 has been moved outwards with the rod 62, it has carried the intermediate slide 118 outwards, because the driver 121 has abutted against the stop 120. As a result, the nose 117 is pushed away from the stop 116. The control plate 88 can hereby be slid freely in the direction of the 8301266 PHD.83-036 12 double arrow 93 according to Figs. 5 and 7. If, on the other hand, the stop / eject button 63 is pressed, the driver 121 collides with the stop 119 and the nose 117 against the stop 116. The control plate 88 is therefore in a 5.

preferred situation according to Fig. 6B.

The operation of the device can be described as follows. When a cassette is loaded, the stop / eject button 63 moves from the position of Fig. 2A to the position of Fig. 2B. In a manner also not shown, the electric switch of the motor 3 is closed and the motor starts to run. This also causes the flywheels 7 and 8 to rotate in the opposite direction. The gears 11 and 12 and the gears 14 cooperating therewith also rotate, respectively

By the movement of the stop / eject button 62, the detent lever 58 of FIG. 2A pivots about the axis 59 and the detent pin 65 enters the engagement area of the heart-shaped cam 56 of FIG. 2B.

2q Since the gears 14 and 17 are not engaged with the gears 24 and 25, the two winding mandrels 20 and 21 do not rotate. The discs 41 and 42 are connected to the winding mandrels 20, 21 by means of their separate slip couplings and are therefore also stationary for 2g. Since a torque on the switching element 46 is missing when the cassette is brought in, since the tape wraps do not rotate and the tape is stationary, the switching element 46 remains in the position shown in fig. 1 and therefore comes into contact with the pin 49 against the outside. of the control wall 51 · As a result, the switching element 46 makes a clockwise movement according to the arrow 46a and the connecting element 52 pivots counterclockwise according to the arrow 67. Since the detent lever 58 has been pivoted and the pin 65 has entered the engagement area of the heart-shaped boss 56, the pin 65 now moves around the wall 68 of the heart-shaped boss 56 and enters the recess 70. a swiveled position is locked (see fig. 2B).

8301266 * PHD.83-036 13

By pivoting the connecting element 52 counterclockwise in the direction of the arrow 67, the cam 71 is moved inwards and pressed against the leaf spring 72. The leaf spring, in turn, presses 5 against the head plate 74 via the holders 76 and 77 and tries to slide it in the direction of the pitch axes 9 »10.

The operation of the control plate 88 now occurs.

Before pivoting the cam 71 inward, the head plate 74 is spaced from the axes. The guide pins 86, 87 had therefore run into the entry slots 110 and 11 (see fig. 5). The control plate 88 is in the position shown in fig. 6a. displayed mode. When the head plate jb is moved against the tone axes 9, 10 the guide pins 86, 87 move forward and come against the left side 15 of the tongues 102, 103 and also in the left legs 106 and 109 of the guide slots 104, 105. left guide pin 86 therefore has a stop in the shorter leg when moving, while the right guide pin 87 can move freely in the direction of the pitch axis 10 (see fig. 6b).

As a result, the pushed-forward head plate 74 pivots forward on the right-hand side such that the right-hand pressure roller 79 comes into contact with the right-hand axis 10. The other pitch axis remains unloaded. As a result, the belt runs in the direction shown in Fig. 3.

25

When the end of the belt is reached, the belt stops. As a result, the switching element 46 is pivoted clockwise again with the pin 49, and the connecting element 52 is again pivoted counterclockwise (Fig. 2B) in the direction of arrow 67. The connecting element 52 is pivoted even further during this movement after the normal pivoting, which is present in the locked position. This additional pivoting is possible since the cam 71 presses against the leaf spring 72 on the head plate 74 and thus has deflection play in the direction of the head plate. At this additional pivoting, the pin 65 emerges from the recess 70 and the detent mechanism 57 is unlocked. Under the influence of the spring 54 under the influence of the spring 54, the unlocked connecting element 52 now pivots clockwise, so that the cam 72 exits. In this position the head plate has moved away from the cassette and the guide pins 86, 87 have again entered the lead-in slots 110 and 111. The control plate 88 has remained in the last occupied position.

Therefore, the tongues 102 and 103 are still in a left-shifted position relative to the center of the entry slots 110 and 111 (Fig. 6c).

Now the reversal of the belt running direction follows.

The shift wheel 14 is still rotating. Since the head plate 74 is retracted, it has also pulled the bent end 80 outward, thereby pivoting the pivot arm 16 such that the shift wheel 14 10 does not cooperate with the play wheel 25. The detecting element 40 detects tire standstill. Again, the switching element 46 is pivoted clockwise. The switching element 46 presses against the connecting element 52 and again pivots it counterclockwise in the direction of the arrow 67. As a result, the pin 65 again revolves around the heart-shaped projection 56 and finally falls into the recess 70 again. and locks the connecting element 52. The cam 71 is now pushed forward again and the head plate 74, after moving forward, assumes the position shown in Fig. 4. The gear wheel 17 is in engagement with the gear wheel 11 and the gear wheel 24 via the bent end 81 of the head plate 74. In this position according to Fig. 4, the pressure roller J8 30 lies against the counter axis 9 on the belt and is conveyed in the opposite direction.

Reversal of the tape running direction is caused by the guide slot device, which is shown in various positions in Fig. 6. The last described position was the position according to Fig. 6c. In this position, the control plate 88 is shifted to the left and the guide pins 86, 87 lie in the entry slots 110 and 111. As the head plate 74 is moved forward again, the guide pins 86, 87 are moved 8301266 * r> PHD.83-036. also moved forward and run against the right angled surfaces of the pointed tongues 102 and 103. The guide pins 86, 87 are thereby shifted to the right and run in the legs 108 and 107.

5

The transverse displacement of the guide pans 86, 87 is possible by sliding the guide pins 86, 87 in the longitudinal slots 84, 83. When walking in the legs 107 and 108, the guide pins 86, 87 have taken the control plate 88 µg to the right, so that the legs 108 and 98 as well as 107 and 97 now cover each other. As a result, the tongues 102 and 103 are displaced again in such a way that when the guide pins are moved back and forward, they can again come into contact with the left oblique surfaces of the pointed tongues 102 and 103. The position of the guide slot device in this case is shown in Fig. 6D. The guide pin 87 has encountered a stop in the shorter legs 107 and 97 which prevents the head plate 74 from continuing on the right side. On the left-hand side, the guide pin 86 has not found a stop and this pin could extend in the legs 108 and 98 so far that on the left-hand side of the head plate, the pressure roller 78 is pressed against the tone shaft 9 by the spring 72. This position is shown in fig. 4. It is noted that, in a manner not shown, while retaining the favorable effect, it is also possible to place the short legs of the slots 94, 95 and 104, 105 near the mutually facing sides of the slots and the long legs near the sides facing each other.

Fig. 8 shows a derivative embodiment of the guide slot device and of the control means. The guide slot device consists of U-shaped grooves 122, 123, which are provided in the frame 1. The U-shaped grooves again cooperate with the guide pins 86, 87. The U-shaped grooves 122 and 123, as with the embodiment according to Figs. 5 and 6 long legs 124, 125 and short legs 126, 127 · The connecting base 8301266 PHD.83-036 16 between the respective legs is designed as double base groove 128a, 128b and 129a, 129b. In the vicinity of these double grooves 128 ai 129, guiding surfaces 130 and 131 as well as 132 and 133 acting as control means are provided. The guiding surfaces 130 to 133 are formed as oblique ramps, which gradually rise upwards from the bottom of the grooves and end at the guiding contours 130a, 131a, 132a and 133a. These guidance contours belong to 10. also at the control means for the guide pins 86 and 87.

The function of the guide slot devices and control means according to Fig. 8 is as follows. It is assumed that the head plate jb is in the position withdrawn from the cassette 15. In this starting position, the guide pin 86 rests in the recess 13 of the upper double groove 128b. The guide pin 87 rests in a recess 135 of the lower double groove 129a. Above the 20 guide pins 86 and 87, the walls of the grooves 12Sb and 129a, respectively, are provided with guide points 136b and 137a. These guide points are slightly left with respect to the centers of the guide pins 86, 87 at the bottom groove and slightly right at the top groove. As a result, when the head plate 7 ^ · is moved forward again, the guide pins in the upper groove can only move to the left along the guide surface 130 and in the lower groove only move to the right along the guide surface 133. This means that with this shift the guiding pin 86 slides into the shorter leg 126 and the guiding pin 87 into the longer leg 125. The guiding pin 86 therefore encounters a stop when sliding after a relatively short displacement path, while the guiding pin 87 can slide freely. This 3g corresponds to the position of the head plate 7b according to Fig. 3. When the head plate Jb is shifted back to the starting position, the guide pin 86 extends through the leg 126 to the lower groove 128a and the guide pin 87 830 1 26 6 PHD. 83-036 17 to the top groove 129b. Thus, in the fully retracted position of the head plate, the guide pin 86 is recessed in a recess 138 and the guide pin 87 in a recess 139 in FIG. If the head plate is now shifted again in the direction of the tone axes, as a result of a guide point 136a, the guide pin 86 moves in the direction of the guide surface 131 in the long leg 124. The guide pin 87 moves in the direction of a guide point 137¾. direction of the guide surface 132 in the short leg 127. This means that the guide pin 87 in this case in the short leg 127 has a shorter path of movement with a stop, while the guide pin 86 can move freely in the leg 124. The head plate thereby acquires a position, which can be seen in Fig. 4. When the head plate 84 is brought back again, the guide pins 86 and 87 return to the initial position described above.

The advantage of this guide slot device 2Q is that no moving parts are necessary to control the movement paths of the guide pins. The grooves and the guide surfaces as well as the guide contours can be sprayed onto the frame in plastic.

FIG. 9 shows a derivative embodiment of a magnetic tape cassette apparatus according to the invention with the frame 1 and the motor 3 attached to the frame 1 by means of a motor support. In this drawing, only the essential parts for the function of the derived embodiment are displayed. The essential difference from the first embodiment is that a head plate 140 carries only one pinch roller 79 which cooperates with an associated tone shaft 10. The other pressure roller 78 as well as the second tone shaft 9 35 have been omitted. The gear wheel 17 and the pivot arm 19 carrying this gear wheel are lacking for driving. Furthermore, the guiding slot devices and control means for switching the belt running direction are missing.

8301266 PHD.83-036 18

As a replacement for the pressure roller 78 »which has hitherto found a stop, a fixed stop 141 on the chassis now occurs, against which the head plate 140 can run. A link 142 is provided on this head plate 74 which extends away from the display shaft 10. Furthermore, the head plate 140 carries a cam 143, which also extends away from the display shaft 10, and comprises an inclined free end.

The stop eject button 63 is provided with a stop button operating rod 144, which is provided with an inclined part 145 and with a cam 146 · On the frame 1 there is a switch 147 against the force of a spring 148 in the sliding direction of the rod 144 slidably guided, in accordance with a double arrow 149. The spring 148 pulls the switch 147, when it is not loaded by another part, by some distance in the direction of the key 63 against a stop (not shown) on the frame 1. The switch carries two spring contacts 150, 151 which, when no load is exerted on the switch from the outside, close the circuit of the motor 3. The switch contact 151 further carries a stud 152 which can be lifted by the rod 144 and the head plate 140 of the switch contact 150.

25

During normal operation with the magnetic tape cassette inserted, the rod 144 is pushed out (fig.

9). This means that the stud 152 is exposed and the contacts 150 »151 close the circuit of the motor 3. In this position, the head plate 140 is shifted in the direction of the pitch axis 10 and the stop 141 by means of the connecting element 52 and the cam 71. This is, for example, the playful tooth of the device.

When the tape end has been reached or the device is deliberately stopped, the connecting element 52 is unlocked and the cam 71 goes out. This relieves the head plate 140 and the spring 54 pulls the head plate 140 out of the cassette 8301266 • PHD.83-036 19 via the bracket 72a. The switch piece 142 hereby collides with the stud 152 and presses the contacts 150, 151 apart (Fig. 10A).

This opens the circuit of the motor and the drive stops. The device is now turned off. If you take the cassette in the appliance out of the appliance, the stop eject button 63 must be pressed. The cassette is then pushed out of the device via the rod 144 by means of an ejection mechanism (not shown). The stop key rod 144 is displaced from the position in Fig. 10A to the position in Fig. 10B. This means that the cam 146 on the key rod 144 abuts the switch 147 and carries it against the force of the spring 148 along the sliding path, with an oblique end portion of a cam 147a 15 on the switch 147 along the bevel end of the the cam 143 slides and becomes locked to the right of the cam 143. When the key 63 is pressed, the bevel 145 on the key rod 144 takes over the function of the switch piece 142 for holding the switch 20 147 open. As a result, the head plate no longer has any influence on the switching contacts 150, 151 · In the shifted position, the cam 147a rests against the cam 143 »even when the rod 144 is pushed back again when a cassette is reinserted. However, of the rod 144, the bevel 145 has released the stud 152, so that the contacts 150, 152 are closed again, thereby closing the motor circuit.

Now the switching mechanism of the device starts again.

The connecting element 52 is moved in the direction of the arrow 67 according to Fig. 2B and the connecting element 52 locks in the locking mechanism 57 by means of the pin 65. The head plate 140, which has now been pushed forward again, has the retraction of the cam 143 switch 147 released, which can return by the spring 148 to its starting position according to Fig. 9. This ensures that the locking mechanism 57 can operate without interference in the event of a tire standstill 8301266 PHD.83-036 20. If the manual run has to be restarted from the switched off position (fig. 10B), without the cassette having been extended beforehand, you can briefly press one of the quick rinsing buttons 31 »32. The rods 5 33 »34 of these keys are provided with contact surfaces 33a» 34a which, when pressed against a pin 140a, press the head plate 140, push it forward, so that the contacts 150, 151 close again and the switching mechanism of restart the appliance, and the appliance takes the position shown in fig. 9.

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Claims (6)

1. Switching device for a magnetic tape cassette device for switching an operating mode in tape standstill to another with a head plate which can be moved in the direction of the cassette and with a switching mechanism, comprising: - a switching wheel continuously driven during operation of the device, that controls a switching element, - a detection element, which is coupled to at least one winding mandrel and, in particular, transport transport, controls the position of the switching element on the switching wheel, - a steering groove on the switching wheel, which moves the switching element during tire standstill and - a connecting element , which is always moved in the same direction by the switching element when the belt is stationary to switch the device into another operating mode, characterized in that - the connecting element can be coupled to the head plate for moving the head plate, 15 - a locking mechanism positions the head plate in a position ar moved to the cassette retracts, - in the event of a relocation controlled by the switching element, the connecting element unlocks the detent locking mechanism, and by releasing the head plate moves from the position moved to the cassette to a retracted position. Switching device according to claim 1, characterized in that the connecting element cooperates with the head plate via a spring element, such that when the moving element is moved again, the connecting element is moved further in a continuous movement from the locked position towards the head plate moved to the cassette. , during which movement the detent mechanism is locked. Switching device according to claim 2, characterized in that the locking mechanism consists of a heart-shaped cam, a guide cam, opposite the heart. 8301266 1 9 -Λ * · «Μ» · I 11 APR 1983 PHD.83-036 22 1 I shaped recess the heart-shaped cam is located and a first pin that moves along the heart-shaped cam, the heart-shaped cam and the guide cam being located on the connecting element and the first pin with the R frame is pivotally connected, that the pin is movable both along the heart-shaped projection and that it can be displaced with the heart-shaped projection by weakening out of the engagement area. Switching device according to claim 3, characterized in that the locking lever is pivotally mounted on the frame and carries a second pin, which is inserted in a guide slot in an operating rod connected to a stop button, wherein the operating rod is displaced the detent lever is pivoted and the first pin is moved out of the engagement area with the heart-shaped cam. Switching device according to claim 4, characterized in that „„ - an electric on / off switch for switching the circuit of a drive motor of the device is displaceable on the frame against resilience, - on the operating pliers and the head plate switch pieces are provided which disengage contacts of the circuit opening switch when the operating rod is slid inward relative to the apparatus or the head plate from the position moved to the cassette to the retracted position is moved, - the operating rod carries a cam, which, when retracted, moves the switch along to a displaced position, in which the contacts of the switch are outside the range of the switch piece of the head plate 35 and - the head plate carries a cam, which if the switch is shifted and the head plate is retracted, the switch is in the shifted position fixed- 8301266 PHD.83-036 23. * until the fcop plate is moved in the direction of the cassette again. 6. A switch according to claim 5, characterized in that the operating rod of at least one quick-action button 5 can be coupled to the contacts of the switch, wherein the contacts are closed by pressing the quick-action button, the drive motor is started and the connecting element is repositioned for the head plate moved in the direction of the cassette. 10 15 20 25 30 35 ____________________ 8 301 266