DE2435292C3 - Slide projector for cross-fade projection - Google Patents

Description

The invention relates to a slide projector for cross-fade projection with two slide stages and one Guide for a magazine in which the slides are arranged in consecutive order and according to the Projection can be arranged again, being

successive slides are temporarily located simultaneously in the two slide stages, and with a drive motor for one of the slides from the magazine into theirs Transferring the projection position in the slide stages and putting the slides back into the magazine Slide changing mechanism.

In a known slide projector of this type (DT-AS 22 59 651), each time the Projection buttons for forward or backward projection of the drive motor for the change mechanism switched on, which carries out a full slide change cycle and then switches itself off Slide change looks like that when you press the forward projection button the projector of the The previously projected slide is faded onto the prepared slide, which now appears on the projection screen, the slide stage of the original projected slide is transferred from the focal plane to the slide plane, with the magazine a Correction step, d. H. a switching step in the reverse direction undertakes such that the magazine compartment, in which the previously projected slide was originally located, back to the sliding level arrives, the change slide takes the slide from the Oiabühne transferred to the magazine compartment, the magazine transported by two switching steps in the forward direction and out the slide is removed from the compartment that is now in the interchangeable slide level and placed in the slide platform is inserted, after which the slide tray is transferred from the slide level to the focus level will. This ends a slide change cycle *, and that Dia is ready to be cross-faded for the next projection

This process is repeated each time the forward projection button is pressed, and also only in the reverse sense by pressing the rear projection button as long as there is one in both slide stages Slide is The start of the forward projection, i. H. the projection of the slides in the order of Starting compartment of the magazine up to the end compartment, and the termination of the back projection, i.e. H. the projection of the slides, from a subject with a higher atomic number to to the initial compartment of the magazine, however, as explained below, require a somewhat cumbersome operating procedure by the presenter.

For a projection, the filled magazine must first be pushed into the magazine guide up to a stop be inserted, with its initial subject being a magazine switching step before the When the projector is switched on, a blank image appears on the projection screen shown because there are no slides in the slide stages. By pressing the forward projection button If the drive motor is switched on for the slide change, the following processes are carried out via the change gear causes: Cross-fading from one slide stage, hereinafter referred to as slide stage 1, to the other Slide stage, hereinafter referred to as slide stage 2, transfer of slide stage 1 from the focal plane into the Change slide level, whereby the magazine is moved backwards by one step, so that the The first compartment of the magazine is two magazine indexing steps in front of the interchangeable slide level, insert of the change slide in the slide stage 1 in order to take out the non-existent slide, transport of the magazine, interest by two switching steps in the forward direction, so that now the starting subject in the change slide level comes to rest, inserting the slide in the first compartment of the magazine, hereinafter referred to as slide 1, into the Slide stage 1 through the interchangeable slide and the transfer of slide stage 1 from the interchangeable slide plane into the focal plane. This ends the cycle, without the slide 1 appearing on the screen. Only when you press the forward projection button again is faded over to the slide provided in slide stage 1 and the process just described is carried out executed by slide stage 2 To project the first slide, the operator has to press twice Press the forward projection button. From then on, each time the forward projection button is pressed, a new slide projected

A similar problem occurs when the rear projection stops. To explain this, the Assumption made that slide 1, which is to be arranged in the initial compartment of the magazine, is projected in picture stage 1 is, and the slide from the second compartment of the magazine, hereinafter referred to as slide 2 in the picture stage 2 is ready for projection If the backward projection button is now pressed, it switches itself on the drive motor for the DiawecK -; 1, whereby reverses its direction of rotation The Molo 'causes over the gear mechanism does the following: The slide stage 2 with the slide 2 is moved from the focal plane in the change slide level transferred, the magazine contrary to the previous statements not to the so-called correction step is advanced because the second compartment of the magazine, hereinafter referred to as compartment 2 denotes into which slide 2 is to be inserted; pushes the slide 2 out of the slide stage 2 into the compartment 2, after which the magazine is switched by two switching steps transported backwards, so that the first compartment of the magazine is one switching step in front of the interchangeable slide level Slide stage 2 in without inserting a new slide, then slide stage 2 is transferred from the changeable slide level to the focus level and the projector Faded in The slide change cycle is now ended and a blank image appears on the projection screen because no new slide has been inserted in slide stage 2 wui-de. As a result, the operator can fall into the fallacy that this ends the projection and everyone Slides are arranged in the magazine. In reality, however, slide 1 of the initial subject is still in the image stage 1 standing in the focal plane and can only be fetched into the magazine by pressing the backward projection button again characterized in that, by pressing the backward projection button, the image stage 1 from the focal plane into the Change slide level is transferred, with the magazine a viewing step, the so-called correction step, executes in the forward transport direction of the magazine so that the starting compartment is in the change level comes. The change pusher moves slide 1 from slide stage 1 into the starting compartment, after which it becomes Magazine advanced by two switching steps in reverse direction. The change slide moves into the empty one Slide stage 1 without inserting a slide and slide stage 1 is transferred from the changing slide level to the focus level and the projector is superimposed by Slide stage 2 on slide stage 1. Only now is the projection process finished and all slides are in place in the original order in the magazine. Here, too, the operator has to do the twice Press the reverse projection button one after the other to move both in the projector without a slide projection taking place

transferred slides into the magazine.

The purpose of the present invention is to improve the operating procedure when starting a forward projection and to simplify at the end of a backward projection.

The invention is therefore based on the object of the mechanism of the slide projector described above to improve the main patent application so that at the beginning of the forward projection an inserted Magazine by pressing the forward projection button and when the rear projection is finished with Press the reverse projection button to finish projecting the slide from the initial tray two full slide changes immediately adjoin each other without pressing the again Forward or backward projection button required. In addition, the possibility should be created that the projection can be canceled in any position of the magazine by a simple measure can and both in the two slide stages beiiituiici'icii Slides can be transferred into the magazine by two consecutive slide change cycles.

This object is achieved according to the present invention in that at least one timing element containing control circuit for switching the drive motor on and off is provided, wherein the duty cycle of the motor is determined by the position of the magazine in the magazine guide. Included the timing element advantageously has a stable and a metastable state, the Duration of the metastable state by actuating at least one in the magazine guide in the adjustment path of the slide magazine arranged switch contact is changeable. In this way, when appropriate Design of the timing element depending on the position of the magazine in the magazine guide and the with it associated actuation of correspondingly arranged switching contacts through the magazine either single slide change cycle or two consecutive slide change cycles without interruption are carried out by the drive motor.

In a particularly expedient embodiment of the invention, a first is in the magazine guide Switching contact in the changing slide level, a second switching contact around a magazine switching step in the forward transport direction of the magazine offset from the first and a third switching contact offset by a further magazine switching step from the second arranged and a first timing element for switching on the drive motor for forward and on second timing element for switching on the drive motor for reverse transport of the slide magazine provided, wherein the first switching contact the first timing element and the second and third switching contact via a corresponding to the previous back or forward transport of the magazine to the second or third switch contact set changeover switch is assigned to the second timing element

In a further embodiment of the invention, the timing element is designed as a Miller integrator, whose cycle time can be reduced by closing the respective switching contact. This is because of this causes the output of the Miller integrator to be the series connection of a resistor and the respective switching contact is connected in parallel

According to a further proposal according to the invention is at least one Schaltreiais to close the Circuit of the drive motor provided by the timing element in its metastable state can be switched on. The control circuit is designed so that the duty cycle of the switching relay at through the magazine closed switching contact a full slide change cycle and when not closed Switch corresponds to two full slide change cycles.

To at the end of the forward projection, which is also the switch contact in the slide level is released from the magazine, not unnecessarily a double stroke, i.e. H. two immediately to get consecutive slide change cycles, which in itself is not disturbing, since the projection is already finished in the first half of the double stroke and all slides have been placed in the magazine is in

i) further embodiment of the invention in the Alternating slide level arranged first switching contact geometrically designed such that it is in both the end position of the magazine, in which the last slide compartment is in the interchangeable slide level, as well as in

to the opposite of the Endstcllüp.g ur

Switching step in the forward transport direction offset position of the magazine with this is in engagement.

In the above-described invention can now be operated manually by a simple Interrupters achieve that the projection can be aborted in any position of the magazine, whereby both slides in the slide stages are automatically transported back into their respective compartments;. * rt will. This is realized in a further embodiment of the invention in that the manual Interrupter to be operated in the series circuit connected in parallel to the output of the Miller integrator of resistance and switching contact is switched on. This closes in spite of the magazine the first switching contact arranged in the changeover slide level when the breaker is open, the duration of the metastable state of the Miller integrator extended so that two full slide change cycles without Connect the interruption together.

Further advantageous refinements of the invention can be found in the subclaims.

In the drawing, an embodiment of the subject matter of the invention is shown

F i g. 1 the circuit diagram for the control circuit of the still image projector,

F i g. 2 the schematic representation of a top view of the still image projector with the magazine inserted, from which the arrangement of the switching contacts in the magazine guide can be seen and

F i g. 3 the schematic representation of the mechanical gear for the slide changing mechanism.

In Fig. 1, the drive motor for Jen slide changing mechanism is designated by 100, which via its drive shaft 21 the in F i g. The slide changing mechanism shown in FIG. 3 is actuated. The drive motor, designed as a direct current motor, can work in two directions of rotation (V and R in FIG. 3). For this purpose the motor is connected on the one hand to the center potential of a DC voltage source 101, and on the other hand

μ hand over a relay contact 102 and 103 with the positive or negative pole of the voltage source 101 connected. The relay contacts 102 and 103 are in front Relays 104 and 105 switched on and off by the control circuit to be described in more detail!

6 '. will. In the rest position shown in Fig. 1 dei Relay contacts, the motor 100 is de-energized.

The control circuit for the drive motor 100 isi via a switching arrangement 106 for generating ai

Constant voltage is connected to the DC voltage source 101. The switching circuit 106 consists of a parallel-connected to the voltage source 101 series circuit of an NPN transistor 107 and a capacitor 108. The base of transistor 107 is 110 connected to a likewise the DC voltage source 101 lying parallel series arrangement of a resistor 109 and a Zener diode such that it with is connected to the connection point of resistor and Zener diode. The operating voltage for the control circuit of the drive motor is tapped from the capacitor 108.

The control circuit for the drive motor 100 is constructed symmetrically and contains two as Miller integrators 111 b / .w. 112 executed time formation members. The base of an npn transistor 115 or 116 is connected to the output of the Miller integrator 111 or 112 via a resistor 113 or 114. The collector-emitter paths of these transistors are in series with the excitation coil of the Scnaiireiais iO4 uiw. 105 parallel to the constant voltage source, that is to say parallel to the capacitor 108. The bases of these transistors are additionally connected via resistors 1 17 or 1 18 and switches 119 and 120, which will be described in more detail, and via diodes 121 or more. 122 is connected to the upper potential of the capacitor 108 .

The Miller integrator 111 or 112 consists of two npn transistors arranged in a Darlington circuit, hereinafter referred to for short as Darlington transistor 123 and 124 , the base of which is connected on the one hand to the upper potential of the capacitor 108 via a resistor 12Ji or 126, that is to say with operating voltage and, on the other hand, is connected to its collector via a capacitor 127 or 128.

While the emitter of Darlington transistor 123 or 124 is connected to the lower potential of capacitor 108 , its collector is not connected directly to the power supply via a resistor 129 or 130, as is usually the case, for the purpose of mutual locking of the Miller integrators Connected to the upper potential of the capacitor 108 via the excitation winding of the relays 105 and 104 controlled by the other Miller integrator. This ensures that in the event that, for example, the transistor 115 is turned on by the Miller integrator 111 , and thus the relay 104 carries current, the Miller integrator 112 is short-circuited by the transistor 115 and vice versa.

The Miller integrator 111 or 112 has a stable state in which the Darlington transistor 123 or 124 is turned on and thus the transistor 115 or 116 blocks, and a metastable state that occurs when a negative voltage is briefly applied the base of the Darlington transistor can be brought about, in which the Darlington transistor 123 or 124 blocks and thereby the transistors 115 and 116 become conductive. During the negative activation of the Darlington transistor 123 or 124 , the capacitor 127 or 128 charges up very quickly. As soon as the negative control of the base of the Darlington transistor 123 or 124 ceases to exist, the capacitor 127 or 128 discharges and as the discharge increases, the Darlington transistor 123 or 124 begins to be conductive until it is fully controlled and thereby the transistors 115 or 116 can be returned to their locked state . The time from the beginning of the conduction of the Darlington transistor 123 or 124 until it opens completely is determined by the resistance of the resistor 125 or 126 and the capacitance of the capacitor 127 or 128, given the assumed high current gain of the Darlington transistor the charging time of the capacitor 127 or 128 is negligibly short, the cycle time of the Miller integrator, ie its metastable state, is to be equated to the above-mentioned time as a first approximation. In the present control circuit, these resistance and capacitance values remain unchanged, so that the Miller integrator 111 or 112 has a defined duration of the metastable state and thus the maximum switch-on duration of the transistor 115 or 116 and thus of the drive motor 100 is also fixed. In order to reduce this duty cycle, the output of the Miller integrator 111 is connected in parallel to the series circuit comprising a resistor 131, an interrupter 132 and a switching contact 133, during which

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direction of a resistor 134, a switch 135 to be described in more detail and two parallel switching contacts 136 and 137 is connected in parallel. By closing all of these contacts it is achieved that the duration of the metastable state, ie the cycle time of the Miller integrator 111 or 112, is shortened, namely by the fact that the capacitor 127 or 128 is no longer on the operating voltage, ie the Capacitor voltage of the capacitor 108, is charged, but only to a voltage reduced in the division ratio of the voltage divider circuit formed by the resistors 129 and 131 or 130 and 134. The transfer of the Miller integrator 111 or 112 from the stable to the metastable state is brought about by closing a switching contact 138 or 139 , which momentarily applies the base of the Darlington transistor 123 or 124 to the negative potential of the capacitor 108. In addition, the base of Darlington transistor 123 is connected to the negative potential of capacitor 108 via a further switching contact 140 . Switch contact 140 and interrupter 132 are actuated simultaneously from the position shown in Figure 2 and in the parent patent application exemption key already described 18 in such a manner that initially the interrupter 132 is opened upon depression of the free position switch and remains in the open position and the contact 140 includes only briefly . Pressing the release switch 118 again leads the contacts 140 or 132 back into the position shown in FIG. 1 position drawn back.

In Fig. 2 the structural design of the projector is shown schematically. This structure has already been described in detail in DT-OS 22 59 661 , so that only the additionally arranged parts have to be discussed. The reference numbers of the main patent application have been adopted for corresponding components. In the magazine guide 12, the switching contacts 133, 136 and 137 already designated in Fig. 1 are arranged in such a way that the magazine 141 closes these contacts as soon as it has reached the position of the switching contacts Switching contact 136 is arranged offset by one magazine switching step in the forward transport direction of the magazine according to arrow A from switching contact 133 while switching contact 137 is arranged offset by a further magazine switching step from switching contact 136. The switching contact

133 is designed in such a way that it protrudes spatially into the area of the switch contact 136. It is thereby achieved that in the position of the magazine in which the end of the magazine has left the change slide level by one switching step in the direction of arrow A , the contact 133 as well as the switching contacts 136 and 137 are still closed. In Fig. 3, the interchangeable slide mechanism is shown schematically in detail. This transmission has already been described in detail in DT-OS 22 59 651, the reference numerals in FIG. 3 coinciding with those in the description of the DT-OS mentioned, so that only the minor additional arrangements have to be discussed. It should be noted that the insert exchange slide 19 and the ejection exchange slide 13 are spatially arranged in the exchangeable slide plane 142 indicated by dashed lines and are only drawn further set back for the sake of clarity of the illustration.

In addition to the structure of the change gear already described in DT-OS 22 59 651, another control disk 143, which carries two cams 144 and 145 offset by 180 °, sits on the shaft 21 of the drive motor 100. In the switched-off position of the motor, the control disk 143 assumes the position shown in FIG. 3. In the adjustment area of the cams 144 and 145, a lever arm 135a is arranged which, together with contacts 135i> and 135c, forms the changeover switch 135 already described in FIG. 1. The changeover switch 135 is designed as a jump or dead point switch. When the control disk rotates in the direction V , the cam 144 or 145 strikes the lever arm 135a and, because of its resilient design, can rotate under it, the contact 1356 remaining constantly closed. However, if the control disk rotates in the direction of R. the control cam 144 first strikes the lever arm 135a, so that the lever arm 135a jumps around and the contact 135c closes. If the control disk is rotated further, the cam 144 or 145 can move under the lever arm 135a because of the resilient design of the lever arm 135a, the contact 135c remaining constantly closed.

The cams 144 and 145 also serve to actuate the switches 119 and 120 in FIG. In the in F i g. 3, the contact arms 119a or 120a rest on one of the control cams 144 or 145 and the switches 119 or 120 are, as in FIG. 1 drawn, opened. As soon as the motor is switched on, the cam 144 or correspondingly the cam 145 rotates under the contact arm 119a or 120e away and the switches 119 and 120 close.

The switching contact 138 in FIG. 1 is actuated by a push button 143 for forward projection (FIG. 2) and the switching contact 139 by a push button 144 for backward projection (FIG. 2). In addition, an on and off switch 143 is provided for the projector.

The projector described above works as follows:

First, the magazine 141 filled with slides is pushed into the magazine guide 12 (FIG. 2) in the direction of arrow A until the front end of the slide magazine strikes the base of the switching contact 133. This is the starting compartment of the slide magazine 141, hereinafter referred to as compartment 1, by a magazine switching step vo, the interchangeable slide level 142. The entire projector is switched on by pressing the on-switch 145, ie the projection lamp 17 lights up and the control circuit according to FIG. 1 is connected to the DC voltage source 101. The two projection units 7 and 8 are in the position shown in FIG. 3 and not in the position

ίο shown projection screen appears an empty image projected by the projection lamp 17, since there is no slide in the slide stage 3. The interrupter 132 in FIG. 1 is closed, the switching contacts 133, 136, 137, 138, 139, 140 are open, and the changeover switch 135

It may be, which, however, is irrelevant in the present case, in the position shown, in which the switching contact 135c is closed, i.e., according to what has been said before, the magazine must have been transported backward last. If the push button for forward projection 143 is now pressed, the switch 138 closes for a short period in which the capacitor 127 of the Miller integrator 111 is charged to the operating voltage, ie the charging voltage of the capacitor 108. This time span is extremely short and can be neglected. When the switching contact 138 closes, the Darlington transistor 12J blocks, the transistor 115 becomes conductive and the switching relay 104 converts the switching contact 102 in such a way that current can flow from the positive pole of the DC voltage source 101 via the drive motor to the center tap. The opening of the switching contact 138 is now ineffective, since the Miller integrator 111 maintains its metastable phase, ie the blocking phase of the Darlington transistor 123, until the charged capacitor 127 is discharged. During this time, the positive triggering of transistor 115 is also maintained. When the motor is switched on, the control disk 143 begins to rotate and the cam 144 rotates under the lever arms 119a and 120a and the switches 119 and 120 close. Thus, the base of transistor 115 on the positive pole of the constant voltage source formed by capacitor 108 continues until cam 145 lifts lever arms 119a and 120a from their contacts after rotating the control disk by 180 °. With the start of the motor rotation, as already described in DT-OS 22 59 661, the following processes take place through the interlocking of the individual gear parts of the changeover slide mechanism: First, the fading from slide stage 3 to slide stage 4 takes place in such a way that the light source 17 becomes darker and the light source 16 is the same extent lighter until the light source 17 completely extinguished and light source 16 has reached its full brightness Thereafter, the projection unit is pushed back in the axial direction 7 until the Diabühne 3 comes in the change slide plane 142 to lie the rocker arm 48 is moved in such a way that the magazine is shifted by one switching step in the direction of arrow B via the switching gripper 36 and the magazine drive disk 44, so that the initial compartment two switching steps before the change slide level comes to rest the insert exchange slide is in the same direction right under the magazine and after reaching the end position of the ejector change slide 13, the slide 33 is actuated via the shift gripper 36 and

the magazine drive pulley 44 transports the magazine into forward clearing A by 2 sonic steps. Now is the top tray, tray 1, the magazine in Wechselscrieberebene and Einführwechselschieber brings the slide 1 in the Diabühne 3. Thereafter, the Projcktionscinheit 7 is moved in such a way άάϋ the Diabühne 3 of the change slide plane in the projection or focal plane is transferred. Once the slide stage 3 has reached the focal plane, the switching cam 145 opens the switches 119 and 120, but this remains ineffective because the Miller integrator 111 is still in its metastable phase and the transistor 115 is positively activated via the resistors 130 and 129 . The motor 100 remains switched on and the process just described follows immediately without interruption in such a way that the slide stage 4 fades to slide stage 3, the slide 1 being projected on the screen. Thereafter, the projection unit 8 moves in the axial direction 71IrUrIf ₁ wnhpi dpr dnrrh dip Proiplf tinnspinhpit 7 in the position indicated by dashed lines, the rocker arm 48 is pivoted again λ the position shown in Figure 3, and the slide 33 is pivoted again via the switch gripper 36 and the magazine drive disk 44 causes a correction step of the magazine in such a way that the magazine is transported in direction B by one step. The first compartment 1 of the magazine comes to a standstill one step before the interchangeable slide level. The ejector change slide 13 moves through the empty slide stage 4 and the slide guide 14 arranged on the rear side of the projection unit 7, which lies with the slide guide 7 in the change slide plane, the insert change slide 19 causes the magazine to be transported forward in direction A via the slide 33 two switching steps, so that compartment 2 of the magazine comes to rest in the interchangeable slide level. The insertion slide brings the slide 2 out of the compartment 2 via the slide guide 14 into the slide guide 4, the projection unit 8 is again shifted axially until the slide stage 4 lies in the focal plane. In this position, the cam 144 again hits the lever arms 119a and 120a , the switches 119 and 120 are opened and the motor is switched off, since the Miller integrator 111 has already returned to its stable state and the Darlington transistor 123 is turned on, so that, after opening of the switch 119 is at the negative potential, the base of the transistor 115 and the transistor 115 blocks the duration of the metastable phase of the Miller integrator 111 is sized so that the Miller integrator can only tilt back to its stable state when the Cam 145 slides off lever arms 119a and 120a of switches 119,120 after more than 180 ° rotation

The magazine has the switching contacts 133 and 136 closed because the compartment 2 is in the change-over slide level; the latter is insignificant for the following consideration, while the switch 137 is still open Switching contact 138 and capacitor 123 are charged in this short period of time to a voltage which, corresponding to the divider ratio of resistors 129 and 131, is lower than the constant voltage taken from capacitor 108. At the same time the Darlington transistor 123 is blocked, the transistor 115 is switched on and the motor is switched on via the relay 104 in the forward direction. The cam 144 rotates under the lever arms 119a and 120a so that the switches 119, 120 are closed. The metastable phase of the Miller integrator, ie the discharge duration of the capacitor 123 charged to a reduced voltage, is now dimensioned so that the Miller integrator only switches back to the conductive state, ie its stable state, when the motor has turned that far is that the cam 144 of the contact arm 119a of the

to switch 119 slipped and switch 119 is closed. When the motor is turned, slide stage 3 is faded to slide stage 4. Slide 2 is projected onto the screen. The projection unit 7 is moved back axially until the slide stage 3 comes to rest in the interchangeable slide plane, the rocker arm 48 being pivoted into its position shown in dashed lines, so that a correction step of the magazine by one switching step in the reverse direction B takes place. That’s what makes it happen

? n Anfi »naQfarh _> Fech 1. to lie in the Wpchs ^p ! schipbpreb? np, the ejector change slide 13 pushes the slide 1 out of the slide stage 3 into the compartment 1 of the magazine, the insert change slide 18 switches over the slide 33 and switching gripper 66 and Magazine drive disk 44 moves the magazine by two switching steps in the forward direction A, so that the compartment 3 with slide 3 comes to rest in the interchangeable slide plane. The import change slide 18 transfers the slide 3 into the slide stage 3, the projection unit moves forward and the slide stage 3 comes into the focal plane. In this position the contact 145 runs onto the contact arms 119a and 120a and opens the contacts 119 and 120. Since the Miller integrator has already fallen back into its stable state in which it puts the base of the transistor 115 to negative potential When the switch 1 19 is opened, the transistor 115 is blocked and the switching relay 104 drops out, so that the relay contact 102 assumes its position shown in FIG. 1 and the drive motor is de-energized. In this position, slide 2 is still projected and slide 3 is provided in the focal plane for the fading process. Each further pressing of the pushbutton 144 repeats the process just described, whereby the individual slides can be projected in the predetermined order. As long as the contacts 132 and 133 are closed, there is always only one slide change cycle, with the drive motor rotating the control disks by 180 °. As soon as one of the switching contacts 132 and 133 is opened, the duty cycle of the motor is extended so that two full slide change cycles are connected to one another without interruption. As described at the beginning, the control disks driven by the motor have completed a rotation of 360 ° .

ss If the projection is to be aborted in any position of the magazine in the projector with slides in both slide stages in order to be able to remove the filled magazine from the projector, the release button 18 must be pressed.

As a result, the interrupter 132 is first opened and remains in the open position and the switching cone 140, as already described for switch contact 138, is briefly closed. The release button remains even after opening the switch contact 140 in the depressed position and forms here a still to Descriptive blocking device for the import exchange slide 19. As by opening the interrupter 132 when switching contact 133 is closed, the long one

Duration of the metastable state of the Miller integrator is switched on, the motor remains switched on, as described above, until two full slide change cycles have been completed. In this case, after the magazine has been transported by two shifting steps in the forward direction A , the insertion change slide 19 is blocked by the release button 18 so that it cannot insert a new slide into the slide exchange platform. In a brief description, this process is carried out as follows: It is assumed that slide 4 is in slide stage 4 and slide 5 is ready for projection in slide stage 3 Pressing the V button fades onto slide 5 Projection unit 8 moves with slide 4 to the sliding level, wherein the magazine is moved by a shift step back in the direction B, so that tray 4 to be in change slide plane comes the slide 4 is transferred into the magazine by the Auswerfwechselschieber 13 the Einführwechselschieber 19 switches the magazine to two switching steps in the direction a and thereafter by the key 143 is blocked in this position The projection unit 8 moves with the empty slide stage in the focal plane, the projector fades from slide 5 to empty slide stage 4, the projection unit 7 with slide stage 3 moves back, with the magazine taking a correction step in direction B so that the compartment 5 comes to rest in the interchangeable slide level, the ejector exchange slide 13 pushes the slide 5 into compartment 5. The magazine is not indexed by two switching steps because the gripper 18 is blocked. The projection unit 7 moves with the slide stage 3 into the focal plane. The switch 119 opens and the process is finished.The filled slide magazine can be removed from the magazine guide 12 and by pressing the release button 18 again, the breaker 132 is closed again and the button is returned to its starting position, whereby the blocking of the insert exchange slide is released.

If the slide magazine is in the interchangeable slide level 142 as a result of continuous forward projection with an average number of compartments, the previously projected slides are shown again by pressing the push button 144 for backward projection. The following process takes place in detail: We assume that slide 4 is projected in slide stage 4 and slide 5 is made available for projection in slide stage 3. The switches 133, 136 and 137 are closed by the magazine, and the changeover switch 135 is in the position shown in FIG. 3 position, not shown, in which it closes contact 1356. If the pushbutton 144 for the backward projection is now actuated, the switching contact 139 is closed, the Darlington transistor 124 blocks, the transistor 116 becomes conductive, the relay 105 attracts the switching contact 103, so that the motor is connected to the center tap and the negative pole the DC voltage source 101 is connected. The direction of rotation of the motor is reversed and the control disks move in the direction of arrow R in Fig. 3. As soon as the cam 144 has rotated under the contact arms 119a and 120a, the switch 120 closes. The Miller integrator 112 is designed in the same way as the Miller integrator 111, so that the Miller integrator only tips back into its stable state after the Switch 120 has closed. The cam 144 strikes the 6Ί resilient contact arm 135a of the changeover switch 135 and causes the changeover switch to jump around in such a way that the contact 135cgc is now closed. About the The control cams and the gear are fed back to the projection unit 7 so that the slide stage 3 lies in the interchangeable slide plane. 3 dashed position has remained. The ejector change slide 13 moves the slide 5 from the slide stage 3 into the compartment 5 of the magazine, the insert change slide 1! switches the magazine via the slide 33, Schaltgrei fer 36 and magazine drive disk by two switching steps in the reverse direction B, so that the compartment 3 ir the change slide comes to rest Projection unit 7 is axially displaced until slide stage 3 is in the focal plane. The projector is faded and slide 3 appears on the projection screen. At this point in time the control disk 143 has completed a rotation of 180 ° and the cam 145 runs onto the lever arms 119a and 120a and opens the switch 120, whereby the transistor 116 is blocked, the relay 105 drops out and the relay contact 103 is in F i G. 1 assumes a rest position shown, a slide change cycle is ended and when the backward button is pressed again, the process described above takes place, slide 4 being brought into the magazine and slide 2 in the projection unit 8 brought into the focal plane and projected onto the screen. In this position de: the magazine, the switching contact 137 is open, since Facl 2 is in the interchangeable slide level, and the switching contacts 133 and 136 are closed. However, since the switchover 135 keeps the contact 135c closed, the opening of the contact 137 is irrelevant. If again di <push button 144 is pressed, projection unit i moves back until slide stage 3 in change slide level Iiegl whereby by turning the rocker arm 48 a correction step is carried out so that the magazine un one switching step in the forward direction A is shifted. As a result, the compartment 3 comes to rest in the interchangeable slide, the ejector change slide 13 pushes the slide 3 out of the slide platform 3 into the compartment 3 of the magazine: and the insert exchange slide 19 switches there: magazine by two switching steps in reverse direction B, so that the initial compartment, compartment 1, in the interchangeable sliding level. The insertion change slide then transfers the slide 1 to the slide stage 3, the projection unit 7 moves into the focal plane and the projector fades from slide 2 to slide 1. This ends this cycle and the motor is switched off via the cam 144 Position of the magazine de switch contact 136 released so that it opens. When the button 144 is pressed again, the capacitor 128 of the Miller integrator 112 is charged to the constant voltage determined by the capacitor 108. Since the Miller integrator 112 has the same dimensions as the Miller integrator 111, the duration of the metastable state of the Miller integrator is also here considerably increased, as a result of which two full slide change cycles follow one another without interruption. Here is first dii projection unit 8 retracted until the Diabühne · lies with the slide 2 in the slide table plane wöbe by moving the rocker arm 48, a Korrekturschrit takes place, so that the magazine is with its tray 2 ii shuttle spool level. Although switching contact 136 is opened again in this position, this no longer has any influence on the duration of the metastable state

of the Miller integrator 112, as this only depends on the state of the switching contact when the projection button is pressed The ejector change slide 13 moves the slide 2 from the slide stage 4 into the compartment 2 of the magazine and the insert change slide 19 switches the magazine by two switching steps in the reverse direction B, so that the magazine is outside the interchangeable slide plane The insert interchangeable slide 19 can therefore not put a new slide in the slide stage 4, the projection unit 8 is again shifted axially until the slide stage 4 is in the focal plane and the projector fades, so that a blank image appears on the projection screen In this position, the cam 145 opens the switch 120, but since the Miller integrator 112 has remained in its metastable phase, the transistor 116 remains conductive and the drive motor 100 is switched on. The projection unit 7 with the slide 1 moves back until the slide stage 3 is in the changing slide level. Repositioning the K ipphebels 48 causes a Korreklurschaksehriu in the forward direction A, so that the initial subject, subject 1, of the magazine is in the change slide level. The ejector change slide 13 pushes the slide 1 out of the slide stage 3 into the compartment 1 of the magazine. The insert change slide 19 switches the magazine back by two switching steps, so that the magazine is again outside the change slide plane The projector fades out, again a blank image on the projection screen appears

The switch contact 137 is only effective, if, with a freshly inserted slide magazine, first press the button 143 for forward projection has been pressed so that slide 1 is projected in slide stage 3 by a double slide change cycle and slide 2 in slide stage 4 for projection is ready and then immediately the pushbutton 144 is pressed for the rear projection. In this The switching contacts 133 and 136 are closed and the switching contact 137 is open Forward projection has occurred, d. i.e., the control disk

143 extends in the direction V in FIG. 3 has moved is located the changeover switch 135 is in the position shown in FIG. 3, where it closes the contact 135Z) now the pushbutton for backward projection

144 is actuated, the effective switching contact 137 is activated opened and the capacitor 128 of the Miller integrator 112 charges up through the capacitor 108 certain constant voltage. In this way, as described above, a switch-on duration of the switching relay 105 is achieved in which the The drive motor causes 2 full slide change cycles that follow one another without interruption Both slides 1 and 2 are thus immediately transferred back into the magazine in the correct order Switches 119 and 120 are provided because of a certain play in the slide change gearbox in order to achieve an exact To achieve shutdown of the engine. Of course, the duty cycle of the motor can also exclusively can be determined by the cycle time of the Miller integrators.

For this purpose 3 sheets of drawings

Claims (13)

Patent claims: 1. Slide projector for top screen projection with two Slides and a guide for a magazine in which the slides are arranged in consecutive order are, and are rearranged after projection, with successive slides temporarily located in the two slide stages at the same time, and with a drive motor for one of the Transfer slides from the magazine into their project position in the slide stages and the slides again Slide changing mechanism resetting in the magazine, characterized in that a at least one timing element (111, 112) containing control circuit for switching the Drive motor (100) is provided and that the duty cycle of the motor depends on the position of the Magazine (141) in the magazine guide (12) is determined by isL Z projector according to claim 1, characterized in that the timing element (111, 112) of from a stable to a metastable state and the duration of the metastable State by actuating at least one switching contact (133, 136) arranged in the magazine guide (12) in the adjustment path of the slide magazine (141) 137) is changeable. 3. Projector according to claim 2, characterized in that in the magazine guide (12) a first switching contact (133) in the interchangeable slide plane (142), a second switching contact (136) by a magazine step in the forward transport direction (A) of the magazine (141 ) offset from the first and a third switching contact (137) is arranged offset by a further magazine switching step from the second, and that a first timing element (111) for switching on the drive motor (100) for forward and a second timing element (112) for switching on of the motor is provided for reverse transport of the magazine, the first switching contact being assigned to the first timing element and the second and third switching contact being assigned to the second timing element via a switch (135) set to the second or third switching contact according to the previous backward or forward transport of the magazine. 4. Projector according to claim 2 or 3, characterized in that the timing element as Miller integrator (Ul, 112) is designed, the cycle time of which can be reduced by closing the respective switching contact (133,136,137) 5. Projector according to claim 4, characterized in that the output of the Miller integrator (111 or 112) the series connection of a resistor (131 or 134) and the respective Switching contact (133 or 136,137) is connected in parallel 6. Projector according to one of claims 2 to 5, characterized by one of the timing element (Ul or 112) in its metastable state switchable switching relay (104 or 105) to Closing the circuit of the drive motor (100). 7. Projector according to claim 4 or 5 and 6, characterized in that the control circuit is so is designed that the switch-on duration of the switching relay (104 or 105) when the switching contact is closed (132, 133 or 136, 137) the length of time for one full slide change cylinder and with the switch contact open corresponds to the duration of two full slide change cycles, 8. Projector according to one of claims 2 to 7, characterized in that the first switching contact (138) is geometrically designed in such a way that it is both in the end position of the magazine (141) in which the last Diafach is in the interchangeable slide plane (142) , as well as in the position of the magazine, which is offset by a further indexing step in the forward transport direction (A) in relation to this end position, is in engagement with the latter 9. Projector according to claim 5, characterized in that in the series connection of resistor (131) and switching contact (133) one by hand actuatable breaker (132) is switched on 10. Projector according to claim 3, characterized in that the drive motor (100) drives a control disc (143) with at least one cam (144, 145), in the adjustment path of which the switch designed as a switch (135) is arranged in such a way that by rotation ( V) of the motor in the forward transport direction (A) of the magazine (141), the switch is electrically connected to the third switching contact (137) and by rotating (R) the motor in the reverse transport direction (B) of the magazine to the second switching contact (136) 11. Projector according to claims and one of the Claims 4 or 5, characterized in that the switching relay (104 or 105) via a transistor (115 or 116) can be switched on, its base with the Output of the Miller integrator (111 or 112) is connected 12. Projector according to claim 10 and 11, characterized in that in addition the base of the Transistor (115 or 116) via a switch (119 or 120) is connected to the positive pole of a DC voltage source (101) and that the Control disk (143) carries at least one further cam (144, 145) in the adjustment path of the designed as a break contact switch is arranged such that after the end of a slide change cycle, the cam opens the switch and at Start of the following slide change cycle after turning the control disk a certain amount closes again 13. Projector according to claim 2,7 and 12, characterized characterized that the Miller integrator (111 resp. 112) is designed so that the duration of its metastable state when the switching contact (132, 133 or 136, 137) is closed is greater than that Time from the start of the rotary movement of the drive motor (100) to the closing of the switch (119 or 120) and the duration of its metastable state is greater when the switch contact is open than the time from the start of the rotary movement of the drive motor to the closing of the switch plus the time for a full slide change cycle.