DE2443877C3 - Tape cartridge device - Google Patents

Description

The invention relates to a tape cassette device according to the preamble of claim 1.

A relatively large force is required for mechanical actuation of a tape cassette device. A Design electromagnets for continuous operation with the required high pull-in current, would be too expensive. It is known from DE-OS 14 74 273 in magnetic tape devices, an electromagnet to be provided for running function control with a holding device through which the electromagnet after a Operation of its armature with a holding current that is reduced compared to the starting current in its working position is held. The holding current also flows through the electromagnet in the idle state. However, he is chosen so small that it is not sufficient to operate the armature of the electromagnet in the idle state.

You can also, as known per se in electromagnetically operated valves (DE-AS 10 86 506), a Provide a switch that is actuated at the end of the stroke of the armature of the electromagnet and the high Starting current is reduced to a lower holding current. However, it may happen that the movable Part of the electromagnet is the stroke that it at least perform to operate such a switch must not be able to perform because of a mechanical blockage. The blocking can in the present case a tape cassette device e.g. B. caused by an incorrectly inserted tape cassette. The winding of the electromagnet would continue to be loaded with the full starting current in such a case. This would become a inadmissible high heating and ultimately lead to the destruction of the winding.

You can get such a high level of heating through fuses or thermal switches in series avoid the winding.

The object on which the invention is based is, in the case of a tape cassette device, that of the preamble of claim 1 mentioned type the high pull-in current of the electromagnet in the case of blocking turn off its armature before reaching the end of its stroke in order to protect the electromagnet.

This object is achieved by the invention specified in the characterizing part of Claim 1.

Advantageous developments and designs are given in the subclaims.

For a more detailed explanation of the invention, the following exemplary embodiments are based on the drawing described. It shows

F i g. 1 shows a circuit according to the invention for a tape cassette device with photoelectric tape end shutdown with two parallel-connected windings of an electromagnet,

F i g. 2 shows an embodiment of the moving parts of the electromagnet and

3 shows a modification of the one shown in FIG Circuit.

In Fig. 1 is a circuit with a photoresistor

fi5 stand 1 shown, which is from a light source 2 via a rotating light screen 3 is illuminated. The photoresistor t is on the one hand via a resistor 4 with Ground and on the other hand via a switch 5 with the

Operating voltage i / s connected. The operating voltage Ub is also connected via the changeover switch 5 and the winding 6 of an electromagnet (e.g. for switching on the playback) to the collector of the transistor 7 of an electronic switch 8, which is activated by a button 9 (mechanical or electrical, e.g. B. according to the sensor principle) is actuated. In parallel to the series connection of the switch 5 and the winding 6, another winding 10 of the same magnet is arranged, the number of ampere turns (AW number) is dimensioned so that it is able to hold the connected electromagnet. The changeover switch 5 is coupled to the moving parts (FIG. 2) of the electromagnet. The connection point of the resistors 1 and 4 is connected to the input of a transistor 14; the whose output circuit 15 is dimensioned so that the electronic switch 8 is controlled in the sense of a shutdown as soon as the photoresistor 1 no longer emits electrical pulses due to the Uchtimpulse. A diode 16 is connected between transistor 7 and photoresistor 1 in order to prevent the winding 10 from short-circuiting.

The operation of the circuit described so far is as follows. When the device is switched on, the full operating voltage is applied to the collector of the transistor 7 and via the diode 16 to the photoresistor 1. The photoresistor can therefore be effective for the functions switched on by other electromagnets (e.g. for fast forward and reverse) without the Current through the windings 6 and 10 assumes significant sizes. When the button 9 is pressed, the transistor 7 is switched through, the voltage at its collector collapses to a negligibly small value, which is not sufficient to reduce the photoresistor 1 ve '! keep effective. As a result, however, the current through the windings 6 and 10 is so great that the electromagnet can move the moving parts (Fig. 2) for the purpose of playback or recording. When it is working properly, the switch 5 coupled to these moving parts switches off the winding 6 measured for the high AW number and applies the operating voltage Ub directly to the photoresistor 1. If the moving parts of the electromagnet, on the other hand, are disturbed in their movement, e.g. B. inhibited or blocked, the switch 5 remains in its position. The 4:; The voltage effective at the collector of the transistor 7 is then insufficient to convert the light pulses received in the photoresistor 1 into electrical pulses of sufficient size. This simulates the effect of the conveyor limit switch-off and deactivates the electromagnet. For this purpose, the electronic switch 8 is controlled in such a way that the switching on of the transistor 7 is canceled.

F i g. 2 shows an example of the moving parts of the electromagnet Mg. An essential component is a carrier plate 11 which can be displaced by the electromagnet Mg relative to the chassis CH and has magnetic heads 12 firmly mounted on the pressure roller of the electromagnet is assigned and is mounted stationary relative to the carrier plate 11. The cassette K can be inserted into the device and fixed there. The rotary movement of the tape reels is transmitted to the light shield via a drive belt 13. Upon energization of the magnet, the carrier plate 11 is displaced to 6 ^r> that the magnetic heads inserted in the cassette K 12 and the changeover switch 5 is operated. This mode of action is z. B. not given if the cassette K is inserted incorrectly, so the magnetic heads cannot be moved, or if the displacement of the carrier plate 11 is blocked or inhibited by foreign bodies or the like.

In Fig. 3 is a modification of FIG. 1 shown, in which only one winding 18 is provided for the electromagnet. To achieve different currents for the tightening area and the holding area, a resistor 17 is connected in series with the winding 18, which in the Idle state is short-circuited by the changeover switch 5 When the transistor 7 is switched on, it therefore flows a high current in the winding 18, which when the electromagnet is switched on by switching on the Resistance 17 is reduced. When the electromagnet is blocked, the low one, as in FIG Voltage at the collector of the transistor 7 via the diode 16, the photoresistor 1 is almost ineffective, so that the conveyor limit switch-off is activated.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Tape cassette device with an electromagnet used to set a running function, with a switch-on device for the electromagnet, with a holding device that holds the electromagnet after reaching the end of the stroke of its armature with a holding current that is lower than the pull-in current, and with a detector device that, when a Tape winding standstill sends a switch-off signal to the switch-on device of the electromagnet, characterized in that a switch (5) which is actuated at the end of the stroke of the armature of the electromagnet (Fig. 2, Mg) and switches to the holding current and the switch-on device (8) control the detector device (1,2, λ, 4,15) via a timing element with a delay time measured according to the pull-in time of the armature of the electromagnet (Mg) in such a way that the detector device (1,2,3,4,15) then also turns on Switch-off signal to the switch-on device (8), if not within the range with the switch-on signal of the switch-on lteinrichtung (8) beginning delay time a signal of the switch (5) indicating the end of the stroke of the armature of the electromagnet (Mg) is present. 2. Tape cassette device according to claim 1, characterized in that a changeover switch (5) is used as the switch, with its normally closed contact the electromagnet (Mg) is switched to the holding current and with its normally open contact the detector device (l, 2,3,4,15 ) is controlled. 3. tape cassette device according to claim 1 or 2, characterized in that the detector device (1, 2, 3, 4, 15) a photoresistor (1) illuminated by a light source (2), its illumination periodically interrupted by an interrupter (light screen 3) coupled to the belt drive or is released, and includes a downstream RC element. 4. tape cassette device according to claim 3, characterized in that the electromagnet (Mg) is provided with two windings (6, 10) which are connected in parallel between the switching device (8) and the operating voltage (U _B ) , and that one of the Windings (6) in series with the normally closed contact path of the switch (5), whose working contact path is connected to the photoresistor (1). 5. tape cassette device according to claim 4, characterized in that the switching device is a Electronic switch (8) is one-sided with ground and with the other side except for the base of the windings (6, 10) are connected to the detector device (1, 2, 3, 4, 15) via a diode (16) is. 6. tape cassette device according to claim 2 or 3, characterized in that in series with the single one A resistor (117) is connected to the winding (18) of the electromagnet, which in the idle state through the Rest contact path of the switch (5) is bridged (Fi g. 3). 7. tape cassette device according to claim 5 or 6, characterized in that when using several Electromagnets for switching on various operating functions for switching off all Electromagnets a common photoresistor and a common electronic switch are provided are.