CH324740A - Gramophone with automatic record changing device - Google Patents

Description

  

  Gramophone with automatic record changing device The invention relates to a gramophone with automatic record changing device with a magazine intended for receiving records and a playback device, the magazine and playback device being movable for the purpose of moving any record of the magazine by means of plate selection members into the playback position of the playback device .



  The gramophone is characterized in that the playback device has a platter and can be rotated by means of a drive device by at least approximately 180 about an axis that is at least approximately perpendicular to the axis of rotation of the platter, for the purpose of moving the playback device in two playback positions, each of these positions enabling the playback of a corresponding side of the selected record.



  The subject of the invention is shown in the drawing, for example.



       Fig.1 shows the upper part of a gramophone in the diagram, with a part weggebro chen, Fig. 2 shows a longitudinal section along the line. 2-2 in Fig. 3 and Fig.3 a plan view of the mechanism seen from below: Fig. 4 and 5 each show a detail in the diagram, seen from two different sides ge. Fig. 6 shows in longitudinal section part of the playback device with the organs belonging to the latter in the. seen in the same direction as in FIG. 2.



       7 shows a part of the playback device in a diagram, the individual organs being shown in the dismantled state.



       Fig. 8 shows a plan view of the playback device, with some organs omitted and others shown in the position when playing a record.



       Fig. 9 shows a section through a Plat tenteller with an overlying record. 10, 11 and 12 show the organs serving to hold a record on the Plattentel in three different successive positions.



       Fig. 13 shows in a partial elevation a switching element of the playback device with associated further organs and Fig. 14 shows the mechanism for actuating the selector lever in the diagram, while in Fig. 15 a partial bottom view of the device for removing a record from the magazine and for returning it the latter is shown.



       Fig. 16 also shows in a sub-view the main part of the Transportvorrich device and its front. Extension and the elements that cause the transport device to stop at predetermined points.



       Fig.17 shows a section along the line <B> 17-17 </B> in Fig.16 on a larger scale, while Fig.18 shows part of a bottom view from Fig.16 on a larger scale, with the mechanism for Selecting recordings on the back of the records.



       19 and 20 show, in a diagrammatic representation, parts of the underside of the gramophone with the means for actuating the selection elements and their interaction with the transport device.



       21 shows part of the gramophone in a view from below and on a larger scale with the holding means of the selection device on the transport device, which cooperate with the selection members.



       22 shows in a view from below the drive device for the gramophone and for transferring a record to and from the turntable.



       Fig. 23 shows a detail from the bottom view according to FIG. 22, but with the parts of the Vorriclhtinng in the position when playing a record and when returning another record to the magazine.



       FIG. 24 shows in elevation the organs for aligning the transport device on a record.



       FIG. 25 shows part of a floor plan with the mechanism for disengaging the solenoid armature to stop the playback device, and FIG. 26 shows a circuit diagram.



  The gramophone has, as FIG. 1 shows, a housing 1 and a plate 2 with the mechanism, furthermore a magazine 3 for receiving a stack formed from records and a playback device 4. On the front of the housing 1 there is a program selector 5 described below. A hood 6 made of transparent material is used to cover the plat tenmagazins, the playback device and other elements. At the front of the Ge housing 1, a rotatable control member 7 is mounted, which encloses a selection member 8. The lower housing part, which can be designed as desired and provided with ornaments, has a covered opening 9, behind which the loudspeaker is arranged.

   The playback device 14 is brought on by means of a pin 10 on a transport device 11 mounted on the underside of the plate 2 (FIG. 1). The transport device sits ver slidably on a rod 12 (Fug. 2) and is provided with rollers 12 'which lie on a rail 13 attached to the underside of the plate 2. A screw spindle 14 attached to the underside of the plate 2 by means of bearings carries an organ 15 designed as a nut and which is connected to the transport device 11. If the screw spindle 14 is rotated in a certain direction of rotation, the transport device is displaced in a certain direction along the magazine.

    If, on the other hand, the direction of rotation of the screw spindle is changed, the transport device also moves in the opposite direction. The pin 10 protrudes through a longitudinal slot 25 in the plate 2.



  The rotatable pin 10, which is firmly seated on the base plate of the playback device 4, is firmly connected to a gear wheel 16 which is accommodated in a recess on the underside of the transport device 11. Two toothed racks 17 (FIGS. 2 and 3), which are mounted in longitudinal slots on the underside of the transport device, are in working connection with the toothed wheel 16.

   Two ge arched flat springs 18 are attached to one end of two diametrically opposed pins 19 located on the gear 16 and the other end to diametrically opposed pins 20 on the device 11 Transportvorrich. Two adjustable pins 21, which are located on each end of the plate 2, are provided to come with one of the toothed rods 17 in working connection.

    If the transport device is moved to the left in FIG. 3, the upper or rear rack 17 is in operative connection with the left-hand pin 21, with the result that the gear 16 rotates in a clockwise direction, viewed from below, and the playback device is at least approximated 180 turns. This rotational movement is completed by the springs 18 after they have been moved through the dead point.

   The end position of the playback device 4 is reached when one of the contacts 22 on the toothed racks 17 comes into contact with stationary contacts 23 located on the transport device 11. The contacts 23 are ausgebil det as stops and provided with shoulders 23 ', which are attached to the transport device 11, lie below the racks 17 and hold them in their positions.

   As can be seen from FIG. 3, the springs 18 have the tendency to maintain a specific contact 22 in a fixed connection with a specific stop 23 in both playing positions of the playback device 4. Two pins 24, which are shorter than the pins 21, are provided in order to come into connection with the lower or front rack 1.7 in FIG.

   When one of the pins 21 actuates the upper rack 17, the playback device is rotated a little more than 90 and the springs 18 are brought beyond the dead point position. The springs 18 then tend to rotate the playback device over the remaining angle up to 180 '. The opposite pin 24 is intended to connect to the front rack 17 before the playback device has finished its rotation through the full angle of 180 °.

   The springs 18 cause the end of this rotational movement when the retrograde movement of the Transportvorrich device 11, the removal of the front tooth rod 17 from. associated pin 24 causes. In this way it is achieved that every half rotary movement of the playback device is carried out without impact at both ends of its displacement movement.



  The pin 10 protrudes through the longitudinal slot 25 of the plate 2 upwards and is firmly connected to the playback device 4 located above the top of the latter. Füh approximately organs for tonearm, switch and drive are guided through a hole 26 (Fig. 6) in the pin 10 downwards.



  The playback device 4 (FIG. 4) has a base plate 27 with an upright wall 28 which serves as a support for a bearing 29 for a turntable 30. The plat tenteller is stored with a horizontally lying axis. On the wall 28, a motor 31 is fastened, whose shaft 32 protrudes through a hole in the wall and is in working connection with the edge of a relatively large diameter rubber wheel 33 (FIG. 6).

   The wheel 33 sits rotatably on a member 33ca (Fig. 2 and 6), which is slotted at one end and longitudinally displaceable on a pin attached to the wall 28 leads ge. At the slot opposite end of the member 33c engages a spring 33b attached to the wall 28, which connects the wheel 33 with a smaller diameter rubber wheel 34, in operative connection with the shaft 32 and finite the edge of the Turntable 30 holds, so that the turntable is set in the direction of rotation required for playing records in circulation.



  . Below the bearing 29, the wall 28 carries a horizontal leg 35 pointing member, to which leg a pivotable member 36 is attached in such a way that it can swing freely about a vertical axis (FIGS. 4 and 5).

   A pair of stops 37 (Fig. 6 and 8) on leg 35 of the link determine the outermost positions of the link 36, and a spring 38 (Fig. 8) connected to the latter and to the leg 35 serves to push the link 36 into the To bring one - or another of the extreme positions -: The ends of the link 36 are bent upwards and carry a pair of pivoting claws 39 and 40 which protrude downwards under the action of gravity. Stops 41 at the upward 'bent ends of the link 36 limit the movement of the claws, which are at least approximately rectangular in cross section.

   The un tern, horizontal parts 42 and 43 (Figure 7) of the claws extend towards the rear of the turntable 30. This rear of the turntable 30 is provided with an annular recess 44 in which one or the other of the parts 42 or 43 is, depending on the position of the visually swingable member 36. In the radial direction inwardly from the recess 44 of the part 30 of the turntable is provided with a comb-like elevation 45, the height of which, in the clockwise direction, that is, in the at Playing a record taking place in the direction of rotation, seen, increases.

   As a result, when the part 43 is located within the recess and is pivoted inward in the radial direction, it occurs with the elevation 45 in touch tion, and the member 36 is pivoted in the clockwise direction. Is against the part 42 in the annular recess 44 and is pivoted radially inwardly with respect to the plate plate, it comes into contact with the comb-like elevation 45 with the result that the member 36 is carried along in the counterclockwise direction and in its other extreme Able to move.

   The inner edge of the comb-like elevation 45 is seen with a guide 45 'ver that the parts 42 and 43 in connection with the increase 45 holds.



  A crank lever 46 which can be rotated about a horizon tal axis is mounted on the wall 28. Its upwardly directed arm carries a spring 47 which is designed in such a way that it acts on the part 42. Its lower, substantially horizontal arm has an outwardly directed, horizontal pin 48 which extends beyond the playing position of a record. A spring 49 holds the pin 48 in a relatively upright position and presses the spring 47 away from the part 42 and the upwardly directed arm of the crank lever 46 against a stop 50.

   A disk transfer member 51 moves downward when a sound disk is placed on the turntable. During this operation, the transmission element 51 causes the spring 48 to be pressed down and the spring 47 to rotate in the region of the part 42, the latter being applied to the comb-like elevation 45 with the effect that the member 36 pivots in the counterclockwise direction becomes.



  As shown in FIGS. 2 and 4, the spring 47 is bent away from the axis of the turntable. When this spring is bent inwardly in order to come into contact with the claw part 42, there is a direction of movement that involves stretching the spring has the consequence to cause a connection between the part 12 and the comb-like increase 45 Effective Ver. On the other hand, if the spring 47 is on the inner side of the claw part 42 and the element 51 moves away from the pin 48, the spring 49 causes the spring 47 to be pressed against the inner side of the part 42.

   As a result, the effective length of the spring 47 is shortened in such a way that the latter can be removed from the part 42 in order to pass over on its outside.



  The tonearm 52 of the playback device is mounted on an organ 53, which is T-shaped in cross section (Fug. 5, 6, 7). The central leg of this organ is pivotably mounted in a structure 54, the latter being arranged on the base plate 27 in such a way that it can rotate freely in order to be able to bring the needle 55 over the record to be played. The other parts of the T-shaped member 53 are designed in such a way that the tonearm 52 is freely rotatable and can be moved in the direction of the record and away from it.

   An opening 56 in the tonearm is provided to adapt to the central part of the organ 53, which opening is sufficiently large so that the tonearm can be moved freely on its bearing point in the direction of the record and away from it. This central part of the organ 53 is mounted in the horizontal direction and the tonearm 52 extends upwards from this, with the needle 55 on. the record is aligned.

   A weak spring 57 (Fig. 6) attached to the organ 53 presses the tonearm in the direction of the playing position. The tonearm is moved from the contact position with the record out by an arm 58, while an arm 59 is provided to bring the tonearm into the initial position for playing a record. The arms 58 and 59 have a substantially horizontal position and are arranged approximately at right angles to one another. The arm 58 lies approximately parallel to the pivot axis of the tonearm on the organ 53 and is arranged in such a way that it grips the tonearm on the inner side, that is to say on the side facing the record.

   The arm 59, on the other hand, has a position in which it comes into contact with the side of the tone arm which is closer to the center of the record. The arms 58 and 59 are supported by an arm 60 of a member 61 which is U-shaped in cross section. Another arm 62 of the link 61 is directed upwards and carries a resilient extension 63 which is intended to interact with the part 43. The middle part of the U-shaped link. 61 is pivotally mounted on a bearing 64 on it; that is located on the base plate 27 such that the axis of the U-shaped link is horizontal.

   This member is pulled to the left in FIG. 13 by a spring 65, so that the arm 58 is moved away from the tonearm 52 while a record is being played or leaves the latter unaffected.



  The cross-sectionally U-shaped member 61 is moved in the direction of the tonearm by a roller 66 which is located at the lower end of a lever 67. The lever 67 is pivotally mounted at 68 on a ledge 69 attached to the wall 28. The roller 66 has an arrangement according to which it comes into operative connection with the arm 62 next to the pivot axis of the link 61. The upper end of the lever 67 carries a support part 70 which lies on the axis of the turntable 30 and can functionally connect to the end of a shaft 84 on the other side of a double-threaded member 71 on the shaft.

   The shaft 84 is axially movable towards and away from the turntable 30. When it moves away from the plat tenteller 30, the lever 67 is pivoted in such a way that the roller 66 pushes the U-shaped member 61 against the tonearm 52. During the first phase of this movement, the arm 58 occurs with the bottom! of the tonearm in connection - i.e. with the side facing the record, and causes the needle to lift off the record. The link 61 then brings its arm 60 into operative connection with a back surface 72 of such a design that when the link continues to move, it is caused to move the tonearm outwards into the starting position during playback.

   If the shaft 84 is moved again in the direction of the turntable 30, the U-shaped member 61 moves under the action of the spring 65 to pull the arm 58 away from the tone arm so that the needle with the record is in the position at the beginning of playing is in contact. A spring 73 causes the support part 70 to follow the movement of the shaft 84 in order to lift the roller 66 off the link 61. The latter is released, but there is still the connection between the arm 59 and the side of the sound arm and the slight friction effect of the spring 65.

   While a record is being played, the spring 63 rests on the part 43, which it moves into the j area of the back 45 after playing, with the result that the member 36 is grasped in a clockwise direction.



  The movement of the shaft 84 in the direction of the turntable 30 has the consequence that a record to be played is fixed on the part 30, while a movement of the shaft 84 away from the part 30 causes the record being played to be released. The shaft 84 is connected to the turntable 30 to rotate with the latter. The oscillating member 36 is provided with two upward direction ended horns 74 and 75, which can cooperate with the right-hand and left-hand threads of the member 71 on the shaft 84.

   The threaded member 71 is closer to the turntable 30 when a record is played. After you play the record, the oscillating member 36 is recorded clockwise due to the interaction of the part 43 with the comb-like elevation 45. This brings the horn 74 into operative connection with the threaded member 71, which occurs in the part provided with your right-hand thread . The  . Thread member 71 is guided outwards, that is to say away from turntable 30 '. The released record can be brought back to the magazine.

   If another record is moved outwards, the pin 48 is pressed down, -Lind the part 42 comes into operative connection with the comb-like elevation 45. The oscillating member 36 is captured in the counterclockwise direction and the horn 75 into the left-hand thread of the threaded member 71 on the Platter 30 inserted nearest end. The Ge threaded member 71 is therefore moved in the direction of the turntable 30.

   The end of the movements of the threaded member 71 is each associated with a small jerky effect caused by springs 94 by the springs 94 holding the threaded member 71 in loose contact with the horn 74 or 75 that has just actuated the threaded member. The threaded member 71 always remains in a position in which it can be in operative connection either with the horn 75 or with the horn 74 to execute a displacement movement, caused by the oscillating member 36.



  The arm 76 (FIG. 5) is mounted pivotably next to the inside end of the lever 67 and is placed against a stop 78 on a bar 79 by means of a spring 77 (FIG. 13). The bar 79 is located on the base plate 27 and serves as a pivotable support for a locking member 80, preferably made of an Iso liermaterial, the upper end of which is directed to the arm 7 6. The locking member 80 is located on an arm of a normally open switch 81.

   A stop 82 attached to the bar 79 limits the movement of the locking member 80 in the counter-clockwise direction. A stop 83 on arm 76 is directed downward; in order to be able to enter into operative connection with the upper end of the locking member 80. While a record is being played, the stop 83 is located above the upper end of the locking organ 80.

   After playing a record, the double-threaded threaded member 71 is moved away from the turntable 30, the lever 67 is pivoted such that it lifts the tonearm 52 from the record and the latter pivots back into the position in which the beginning of playing a disc. The stop 83 is actuated in such a way that the stop swivels in a clockwise direction and closes the switch 81. As a result, the played record is returned to the magazine.

   The stop 83 releases the locking member 80 and enables the switch 81 to be closed. When a new record is on the turntable, the arm 76 is pivoted in the opposite direction without influencing the switch 81, since the locking member 80 is in operative connection with cream Stop 82 is. The stop 83 glides simply over the end of the locking member 80 away.



  The double-threaded Ge threaded member 71 is firmly connected to the shaft 84, which is displaceable in a hub 85 of the turntable 30 (Figure 9 to 12). An adjusting screw 86 protrudes into a longitudinal slot 87 in the shaft 84 and causes the latter to rotate with the turntable 30. On the outer end of the shaft 84 there is a hood 88, the outer diameter of which is slightly smaller than the diameter of the central, Opening 89 of the record to be played. The hood 88 is rounded on the part facing the sound plate in order to facilitate insertion into the plate opening 89.

   The hood 88 is provided with radial slots 90 which each contain a claw 91. Each pawl 91 is pivotally connected to the hood at 92. The shaft 84 carries a central disk 93, to which springs 94 are fastened, resting against the claws 91 at one end. Each claw has an end 95 intended for fixing the records and can be brought into operative connection with the latter, as well as a cam 96.

    If the shaft 84 is moved inward under the action of the threaded member 71, who the hood 88 and the claws 91 are drawn into a central opening 97 in the outer surface of the turntable 30, so that the sound plate is released from the part 30. If the shaft 84 is moved outward by the threaded member 71, the hood 88 is pushed through the central opening 89 of the record placed on the plate. The curved ends 95 of the claws 91 also pass through the central opening of the record.

   When the movement of the shaft 84 has almost ended, the cams 96 of the claws 91 come into contact with an annular rim 98 protruding into the opening 97, so that the claws 91 move around. their axes 92 are rotated in such a way that the curved ends 95 lie against the parts of the record located around the central opening 89 in order to determine the latter in its position on the turntable. The springs 94 we ken as a pressure medium to maintain the contact pressure of the claws on the record during the period during which the hood 88 is in the outermost. pushed position.

   If the hood 88 is pulled back inwards again, the claws 91 rotate in the opposite direction in order to release the record. The hood 88 and the claws 91 are returned through the opening 97 and ge long behind the surface 99, with which the outer surface of the turntable 30 is designated.



  On the base plate 27, a support 100 (Figure 2) is attached, which carries a curved part 101 at its upper end, which serves as a stop for the record clamped on the turntable 30. The curved part 101 has two ends 102 which lie at least approximately in a horizontal plane through the axis of the turntable 30. These ends 102 of the horizontal part 101 are so far apart from the turntable 30 that a record . freely moved through the space between the ends 102 and the outer surface 99 of the part 30 who can.



  An individual selection member 103 or 104 is provided for each side of each record in the magazine borrowed (Fig. 16 to 21-), the selection members 103 being intended for one side and the selection members 104 on the other side of the records. These Wählglie- are mounted on two rails 105 and 106, the latter being attached to the underside of the plate 2. Since each of the existing records are assigned to two selector elements, their distance corresponds to half the distance between two records in the magazine.

   The distances between the selection members are obtained by placing upper and lower parts on the selection members. 103 and 104 plug into transverse slots 107 and 108 of the rails 105 and 106, which transverse slots are corresponding to the distances to be observed from one another. In each slot 107 of the rail 105 is a), cutting edge 109 (Fig. 17), which is seen in a V-shaped incision 110 at the top of each selector member.

   Each selector is seen with two downwardly projecting arms 111 and 112 ver, which are on both sides of the rail 106, so that each selector is limited in its pivoting movement on the cutting edge 109 when it is from the starting position in the selected position and is pivoted back again. The upper side of the rail 106 is roof-shaped in cross section. Each selector element is provided with a spring 113 which is operatively connected to the roof-like part in such a way that the selector element is fixed in the normal position or in the selected position.

   The selection members 103 carry a shoulder 114 on the back, while the selection members. 104 have a similar approach 115. The approaches 114 are in a higher level than the approaches 115. The approaches 1.1.4 and 115, which are assigned to a record, can be adjusted in the horizontal direction in order to bring their ends at least approximately in the same vertical plane can.



  The selection members 103 and 104 are arranged in such a way that they can be brought out of a normal position into a selected position by means of a lever 116 which is arranged pivotably on a carrier 117 (FIG. 19). This carrier 117 is longitudinally displaceable on two parallel rods 118 and 119, so that the lever 116 can be aligned with each selection element 103 or 104. A spring 120 influences the lever 116 in such a way that the latter is moved away from the selector members 103 and 104.

   The upper end of the lever 116 protrudes through a slot 121 in the plate 2 and through a guide slot 122 in a rail 123 attached to the top of the plate 2 (FIGS. 1, 14 and 19). The rail 123 can move slightly back and forth and is provided at each end with a slot 124 for receiving a bolt 125 which protrudes through the slot and is attached to the plate 2. Near each end, the rail 123 is provided with openings 126 into which the ends of two arms 127 are inserted, which arms are attached radially to a 1:28 rod.

   The rod 128 is rotatably arranged on supports 129 which are screwed to the plate 2. If the rod 128 is set in rotation in one direction of rotation, the rail 123 moves backwards, but if the rod 128 rotates in the opposite direction of rotation, this causes the rail 123 to move forward. The rod 128 carries an arm 130 at one end which is connected to the armature of a solenoid 131.

   If the solenoid 131 is excited, this causes a displacement of the rail 123 to the rear, while a spring influencing the armature causes the rail to be returned to the front position when the coil of the solenoid is de-energized. The front edge of the slot 122 is provided with V-shaped incisions (FIG. 19), the spacing of which corresponds to that of the selection members.

   Therefore, if the lever 116 is not fully aligned with the selector members 103 or 104, but is something to the side of the same, the alignment takes place automatically as soon as the rail 123 is moved back th. The carrier 117 is connected to a chain 132 (FIGS. 2 and 3), which leads ge over two sprockets 133 on each side of the machine and a sprocket 134, the latter sitting on the hollow shaft of the control member 7. By rotating the control member 7, the lever 116 can be brought into the desired selected position with any of the selection members 103 or 104. The regulating button 8 is pushed outwards.

   If it is pressed inwards, it causes a switch 135 to close, which closes the circuit via the solenoid 131, so that the selector element 103 or 104 is directed to the lever 116 in the selected position. The program selector 5 on the front of the machine bears the titles of the pieces on both sides of the records. There are narrow windows 137 (FIG. 1) made of translucent or optically thin material, which are preferably mounted in a plurality of inclined rows. The arrangement is chosen such that the distance between the windows is the same as the distance between the selection elements 103 and 104.

    A strip 136 (FIG. 3) made of colored plastic is attached to the bar 117 in such a way that it extends from the upper to the lower edge of the program selector behind which it is located. The plastic strip is illuminated by a fluorescent lamp 138 which is arranged behind the program selector. To select one of the records, the control member 7 is rotated until the window 137 corresponding to the record is illuminated by the colored light reflected from the plastic strip 136. The lever 116 is off. points at the appropriate selector 103 or 104.

   The selector member 8, designed as a push button, is pressed inward, where the lever 116 pushes the selector member into the selected position. A trigger 139 (Figs. 3, 18 and 20) is pivotably arranged in such a way that the greater part of its length lies opposite the inner sides of the selection members 103 and 104. If one or more of the selector elements 103 or 104 are in the selected position, the trigger 139 is moved out of its normal position to close a switch 140 (FIGS. 3 and 20).

   The trigger 139 is pivoted against the selector members 103 and 104 by the holder, so that when all the selector members have returned to their normal positions, the switch 140 is in the open position.



  The transport device 11 is provided with a front extension 141 (Fug. 3, 1: 9, 20, 21) as a carrier of a normally open switch 142. A lever 143 is pivotally fastened to the extension 141 at 144 and is provided with a part 145 which is intended to operate the switch arm of the switch 142 for the purpose of closing the latter when the lever 1.43 is moved backwards. The lever 143 is normally located between the arm of the scarf 142 and a pin 146 which is inclined backwards.

   An oscillating link 147 be found at 148 pivotable on the lever 1.13. This oscillating member 147 is provided with a pin 149 which protrudes into a slot 150 located in the lever 143, @o that the movements of the oscillating member 147 are limited in both directions. The oscillating member 147 is under the action of a spring 151, by means of which it is held in one of the two limit positions.

   The spring 151 is connected to the lever 143 and to the oscillating member 147, which is equipped with a 7.52 pin that comes into effect with one or the other of two stops 153 when the transport device at the end of the sliding movement in one or in another direction. The oscillating member 147 pivots into one limit position at the end of the movement to the right and into the other limit position at the end of the movement to the left. It is hit with two to 154 and 155, with the help of which the interaction with the approaches zen 114 and 115 of the selector members 103 and 104 comes about.

   For this purpose, see the stop 155 in a lower horizontal plane than the stop 154. In. a limit position of the swing link of the 147, the stop 155 assumes such a position that it comes to interaction with the lugs 115. Pivoting the oscillating member into the other limit position brings the stop 7.55 out of the area of the lugs 115 and the stop 154 into the area of the lugs 114 of any selector element 103 which is in the selected position. If the stop <B> 1.55 </B> or the stop 154 on a shoulder 115 or

    714, the lever 143 is caused by adjustment to close the holder 142, which brings the transport device to a standstill. as a result, as described below. At the end of the movement of the transport device, the projections 114 or 115 are in an aligned position with respect to flat surfaces 156 or 157 opposite the stop 154 or 155 (FIGS. 16, 18 and 21).

    Therefore, if the lever 143 is moved forward, as will be described below, the selector element 103 or 104 located in the region of the stop is returned to the inoperative normal position. The advancement of the lever 143 is caused by .eine claw 158 which. pivotable on a lever. 159 seated. The lever 159 is pivotally mounted on the extension 141 at 160. The, claw 158 is provided with a cam 161 which rests on the edge of the extension 141 and is held in this position by a spring 162.

   If the lever 159 is rotated clockwise, viewed from below, the claw 156 executes a forward movement and brings a stop 163 into operative connection with the end of the lever 143. This causes the latter to be forward against the force exerted by the pin 146 moves away, and the detected selector 103 or 1:04 returns to the inoperative starting position. At the end of the movement of the lever 159, a comb-like elevation 164 becomes effective on the claw 154 and comes into operative connection with a pin 165 attached to the extension 141, so that the claw 158 is guided away from the lever 143.

   This lever is released and returned to the normal or initial position under the influence of the pin 146 (Fig. 18). The operative connection between the stop 7.63 and the extension of the lever 143 is very loose, and the claw 158 can be guided over the linden of the lever 143 without the switch 142 being closed. The lever 159 swings in one direction or the other by a pin 166 which protrudes into a slot in one end of the lever 159.

   The pin 166 is connected to the mechanism that causes the transfer of the sound plate in the position required for playback and its return to the magazine. When a record is transferred to the position intended for playback, the pawl 158 is moved forward in order to cause the selection member 103 or 104 to be returned.



  The transport device 11 is provided with a rear projection 167 (FIG. 3) on which the arm-like transmission element 51 and a lever 168 are pivotably seated, which protrude upward through longitudinal slots 169 and 170 (FIG. 2) in the plate 2. The lower ends of these arms are closed on a switching rod 171, which is longitudinally displaceable and guided through a console 172, which is on the approach <B> 167 </B>. The shift rod 171 carries a roller 173 which interacts with an actuator 174.

   The rod-like adjusting organ 1.74 extends in the longitudinal direction of the machine and is mounted on the plate 2 in a pivotable manner at each end. The switching rod 171 is pulled backwards by a spring 175 so that the roller 173 applies the actuator 174 to a cam 176 which is mounted on a shaft while the roller 173 is moved with the transport device 11. In this way, the cam 176 can operate both the link 51 and the arm 168 in any position of the transport device.



  The arm 168 is arranged in such a way that it can rest against a record located in the magazine from behind in order to push it forwards when the switching rod 171 is pushed back by the cam 176. At the same time, the transmission element 51 is swung forwards in order to catch the record moved by the lever 168. The transmission element 51 is moved forward and downward and acts to bring the record in front of the hood 88. The transmission element has the shape of a channel and is preferably closed at the outer end.

   During the downward movement, it goes into an almost horizontal position, causing the record to be in a slightly advanced vertical position in front of the one in which it is played, the record being both from the channel-like element and from one of the program selector 5 carried strip 270 is held in place. The rounded edge of the hood 88 lifts the record slightly from the channel-like element 51 and from the strip 270, as the position shown in phantom in Fig. 2 shows, so that it can rotate freely for playback, while the Feststel len on the turntable 30 takes place .

   The rod 171 is connected to a pin 166 supporting belt 177 which is guided through slots and pins so that it can be moved forwards or backwards. can, depending on whether a record is to be transported into the position used to play from or after playing back into the magazine.



  As FIG. 2 shows, the record magazine 3 has spacers 178 which are arranged next to one another along the rear side of a belt 179. A curved strip 180 connects the lower portions of the spacer and forms a curved support surface for the records. Between the spacers 178, the strips 179 and 180 are provided with ini cross-section V-shaped recesses 181 and 182 Ver, which serves to Zen tration of each record in their space between.

   The front edge of the strip 7.82 is connected to a strip 183 which extends downwards and serves as a foot. The aforementioned parts of the magazine can be formed from plastics, the front parts of the spacers 178 being chamfered at 184 in order to facilitate the return of the sound plates to their places. The end links of the magazine are preferably made stronger. as the spacers 178 and extend downwardly below the strips 180 for the purpose of forming beams 185.

   The magazine is located on a slightly raised platform 186 above the plate 2 and is preferably held in place on the latter by upwardly directed ends 187 of a metal plate 188 fixed on the platform 186. The end portions 187 are in frictional connection with the end portions of the magazine, The exact alignment of the latter is guaranteed by the connection of the end links 187 with the front strip 183 and the strips 189 attached to the end walls. Like the magazine, the program selector 5 can be removed and replaced with another.

   In this way it is easily possible to replace the magazine with a different one and the program selector 5 with another program selector zti adapted to the new magazine. As Figure 2 shows, the spacers 178 are seen with incisions 190 ver so that the arm 168 can be freely inserted into the magazine to eject the selected record.



  It can also be seen from FIG. 2 that the record conveyor member 51 is effective between two vertical rods 191 located on the extension 167 of the trans port device 11. The rods 191 align the records in the magazine and ensure correct transport of the record to and from the magazine.



  The screw spindle 14 carries a chain wheel 192 which is set in rotation via a chain 194 from a chain wheel 193 who can. The chain wheel 193 is firmly seated on a shaft 195 which can rotate in bearings 195 ′ which are located on a support plate 196 located below the plate 2. The two plates 2 and 196 are spaced apart from one another (FIGS. 22 and 23). The shaft 195 is secured against axial displacement. On ; two bevel gears 197 and 198, which are freely rotatable and secured against axial displacement, are placed on the shaft 195. The bevel gears 19 ″ and 198 mesh with an idling bevel gear 199 which is rotatably mounted on a bracket 200 carried by the plate 196.

   A drive wheel 201, which meshes with a worm wheel 202, is connected to the bevel gear <B> 198 </B>. The snail. The gear 202 is carried by a shaft 203 of a drive motor 204 mounted on the plate 196. Between the two bevel gears 197 and 198, a coupling member 205 is slidably placed on the shaft 195 and wedged with the latter. The bevel gears 197 and 198 and the coupling member 205 have an arrangement according to which the latter can be brought into working connection with one or the other bevel gear.

   Be the coupling member 205 is in one end position and the motor 204 is turned on, the transport device 11 is moved in one direction. On the other hand, if the coupling member 205 is shifted into the other end position, the transport device shifts in the opposite direction. However, if the coupling member 205 is in an intermediate position between the two bevel gears in a position which is ineffective with respect to the latter, the transport device is at a standstill.

   The coupling member 205 is in any of the three aforementioned positions. moved by means of a bolt 206 which sits on a lever 207 and projects into a groove 208 extending over the circumference of the coupling member. The lever 207 is pivotally mounted on the plate 196 at 209. Its rear end carries a downwardly directed bolt 210, while its front end is connected to a bolt, zen 212 on a rail 213 by means of a spring 211.

    The rail 213 is arranged in the longitudinal direction of the machine, and its ends are pivotally connected to two levers 214, one of which is pivotally mounted on the plate 196, the other pivotally mounted on a small plate 215 (Fig. 3)., which is connected to the plate 2 and is at the same level as the plate 196. The front edge of the plate 215 is bent downward to form a flange 216. The flange 216 is provided with a longitudinal slot 217 for receiving and guiding the front end of the lever 214 hinged to the plate 215.

   The rear end of the projection 167 of the transport device 11 carries two bolts 218, which come into operative connection with the front ends of the lever 21.4 at the end of each sliding movement of the transport device 11. The arrangement is that the rail 213 is displaced in the longitudinal direction and the spring 211 is brought over the dead center position. If the rail 213 thus experiences a shift to the right, will. the coupling member 205 pulled to the left and vice versa.



  A lever 219 pivotably arranged at 220 on the plate 196 has one end with a V-shaped incision 221 for receiving the bolt 210 of the lever 207. If the lever 219 is in the position shown in FIG. 22, the spring 2l forces. 1 the coupling member 205 in the .working position with. the bevel gear 197 or 198, depending on the position of the rod 213. If the lever 219 is pivoted into the position according to FIG. 23, the bolt 210 of the lever 207 enters the incision 221 with the result that the lever 207 pushes the coupling member 205 into the inoperative position between the two bevel gears.

   The lever <B> 21.9 </B> is connected to the armature 223 of a solenoid 224 via a link 222. If the solenoid 224 is excited, the lever 219 is pivoted in the clockwise direction, seen from below, and the coupling member 205 is moved into the inoperative position.



  A second coupling member 225 is arranged on the shaft 195 between a bearing 195 'and the drive wheel 201, which can rotate freely and move in the axial direction. It comprises a worm wheel 226 which meshes with a gear wheel 227 and is provided with a guide groove 228 extending over the circumference for receiving a guide pin 229. The guide pin; 229 is located on a lever 230 which is seated pivotably on the plate 196 at 231.

   The lever 230 carries a bolt which lies in a slot 233 of the lever 219. If the solenoid 224 is excited and the lever 219 is pivoted into the position according to FIG. 23, the coupling element 225 is moved to the right and the coupling element 225 is connected to the drive wheel 201.

   If, however, the lever 219 is returned to the position according to FIG. 22, the coupling member 225 is released from the drive wheel 201 and lifted into the inoperative position. The part of the worm wheel 226 provided with the guide groove 228 and the opposite part of the bearing 195 'are provided with lugs which lie on circles of the same diameter and prevent the gear wheel 227 from rotating when the coupling member 225 is disengaged.

   When the coupling member 225 is engaged, the coupling member 205 is in the inactive middle position; If, on the other hand, the coupling member 225 is in the disengaged, ineffective seed position, the coupling member 205 is in operative connection with the bevel gear 197 or with the bevel gear 198 depending on the position of the rail 213. The lever 219 and the elements arranged on it are pulled into the position according to FIG. 22 by a spring 234, which spring is connected to the lever 230 and to the plate 196. A pawl 235 is pivotably mounted on the plate 1:96 at 236. The rear end of the pawl 235 is bent downward to form a stop 237 which is pulled against the armature 223 by a spring 238.

   If the sole noid 224 is energized and the armature 223 is moved backwards into the solenoid, the stop 237 comes into operative connection with a shoulder 239 located on the armature 223 so that the pawl 235 remains fixed in the position shown in FIG.



  The cam 176 is mounted on the upper side of the gear 227, on which side a pin 240 for disengaging the pawl 235 is also seated. On the underside of the gear 227, the latter carries a switching cam 241. The gear 227 sits on a shaft 242 provided for its rotation, which extends downward from a bracket 243 attached to the plate 196. The end of the pawl 235 closest to the gear 227 carries a pawl 245 which is pivotable at 244 and which has limited movement with respect to the pawl 235 in that a pin 246 on the pawl 235 projects through a slot in the pawl 245.

   The claw 245 is held in a limit position by a weak spring 247 which connects the pawl 235 to the claw 245. The pawl 245 carries a downwardly curved flange 248 that is in the path of the pin 240. When a played record is to be returned to the magazine, the pin 240 comes into operative connection with the flange 248 and displaces the latter over a distance which is given by the length of the slot through which the pin 246 protrudes. The pin 240 then effects an adjustment of the pawl 235 in the direction of the notched position.

   If the lever 219 is disengaged; it swings in the opposite sense, as shown in Fig. 22 and 23, and the coupling member 225 is shifted to the left ben in order to shut down the gear 227, but which shares a step in the opposite direction. This movement. brings pin 240 away from flange 248, which is also removed from pin 240 by spring 247. During the time during which the coupling member 205 detects one or the other bevel gear 197 or 198, this causes a transverse movement of the playback device. This Querbewe supply is ended when the solenoid 224. He excites and the coupling member 225 is moved to the right again.

   As a result of the free movement of the claw 245, the twisting step of the gear 227 in the clockwise direction does not cause any functional connection between the pin 240 and the flange 248.



  On one end of the shaft 195, a heart-shaped cam disk 249 is fixedly arranged in such a way that there is an effective connection between it and a roller 250 located on a lever 251 (FIGS. 22 and 24). The lever 251 is firmly attached to the cam disk 249 by means of a strong spring 252 connected to it and the plate 196.

   The arrangement is made such that one revolution of the shaft 195 corresponds to a movement of the transport device 11 over a distance which is exactly the same as the distance between the records in the magazine, and the position of the cam disk 249 'is selected such that when the Roller 250 if the recess of the cam disk 249 is located, the transport device is exactly opposite a record:

   When the rotational movement of the shaft 195 has ended, the roller 250 enters the recess of the cam disk 249 and aligns the transport device with the record to be played and ensures the correct position of the surface 156 of the oscillating member 147 and the attachment 114, as shown in FIG. 21, or an analogous relationship between surface 157 and shoulder 115.

     It is undesirable for the roller 250 to cooperate with the cam disk 249 during the period of time during which the transport device 11 is being moved backwards and forwards for the purpose of selecting a record. A pawl 253 (FIGS. 21, 22 and 24) is pivotably attached to the plate 196 at 254.

   See the roller 250 in the edge recess of the cam disk 249, the lever 251 is in operative connection with a stop 255 of the pawl 253, which is pulled by a spring 256 against the lever 251. ' Rotates shaft 195; the lever 251 is raised and it thereby enables a remote part 257; the pawl to step under the lever 251. This occurs when the shaft 195 is set in rotation by the coupling member 205. The rotation of the shaft 195 is terminated as soon as the transport device 11 has reached the selected position and at which time the solenoid 224 is energized.

   The lever 219 carries a pin 258 which comes into operative connection with the downwardly bent flange 259 of the pawl 253 in such a way that the lever 251 is free and moves downwards under the action of the spring 252 1; ird to align roller 250 with cam 249.



  The switching cam 241 is arranged in such a way that it interacts with two normally closed switches 260 and 261 (Fig. 22). The switch 260 interrupts its circuit as soon as a played record is returned to the magazine and immediately before the latch lever 235 has released the lever 219 in order to drive the transport device 11. The water switch is recently closed immediately after the notching due to the step-like movement given to the gear 227 by the worm wheel 226.

    The switch 261 is opened when a record has been delivered to the player, and remains open until the gear 227 is recently moved over a small angle of rotation. This is the case when the switch 81 is closed after playing a record.



  At the end of the machine's operation, switch 261 is closed while switches 81, 260 and 142 are open. When a record is selected, the switch 142 closes the circuit via the drive motor 31 of the turntable for the purpose of putting the latter into operation. If the switch 261 is closed, the motor 204 comes into operation. The previous operation of the machine was caused by the opening of the switch 260. The resumption of operation of the gear 227 causes the lever 219 to disengage, whereby the switch 260 is closed and the drive of the gear 227 and that of the spindle 14 through the clutch is stopped member is switched on.

   This drive is effective until ziun reaching the selected point, whereupon the solenoid 224 - is energized and the re-actuation of the gear 227 and termination of the movement of the trans port device -11 brings about. The drive of the gear 227 lasts for about half a revolution, during which time the selected record is brought into the position intended for playback. If d.er. Transport of the disk is completed, the switch 261 is opened and the motor 204 is switched off for the duration of the playing of the disk, during which time the switches 261 and 81 are open.

   As already mentioned, when the last selected record has been moved out, switch 142 opens, but motor 204 is switched to allow the record to be returned to the magazine since switch 260 is closed. After playing a record and lifting it off the record plate, the switch 81 is closed so that the motor 204 is switched on again, @; - o- when the circuit goes via the switches 260 and 51.

   The switch 81 remains closed long enough to allow the cam to close the switch 261, thereby ensuring the continued operation of the gear until the record is returned to the magazine. The switch 260 is then opened. If no further records have been selected, the switch 142 also opens to stop the two motors 31 and 204.



  If a plurality of records have been selected, the machine will remain in operation until then; until one record is played back one after the other, in that the switch 142 remains in the current closing position until the last selected record is transferred to the position used to play from. After playing this disc, the machine is shut down in the manner described.



  The mode of operation is as follows: The machine shut down after a previous use has an open switch 140 after the last effective selector 103 or 104 has been returned to the starting position and the switch 260 has been opened after playing the last record. Since both switches 140 and 260 are open, both motors 31 and 20-1 are also de-energized. To start up the machine, the control member 7 is rotated until the colored light is visible through the window 137, which corresponds to the desired plate label.

   The push button 8 is then pushed, and the corresponding selector 1.03 or 104 is moved into the selected position and the switch 142 is closed. Any number of sound panels can be selected. As the circuit diagram according to FIG. 26 shows, the drive motor 31 of the turntable is switched on and its circuit remains closed until the switches 1.40 and 260 open simultaneously. Closing the switch 140 causes the motor 204 to start because the switch 261 is closed. The gear 227 is rotated through a small angle and moves the pawl 235 into the notched position.

   An impulse is given to the coupling member 225 to close the switch 260 in order to disengage the operative connection therewith, and the coupling member 205 is caused to rotate the worm wheel 197 or 198, depending on the position of the rod 213. Is the rod <B> 213 </B> in the position according to FIG. 22, the transport device is moved from below to the left. After the first rotation of the shaft 195, the cam disk 249 moves the lever 251 away from the plate 196 and is notched out by the pawl 253. Since the transport device 11 is moved to the left as shown in FIG.

    the stop 154 is in a position to come into operative connection with the (approach 114 of the actuated selector element 10 ". When this operative connection is established, the switch 142 is closed, the sole noid 224 is excited, its armature retracted and locked by the latch. The lever 219 is pivoted into the position according to FIG. 23 and causes the disengagement of the clutch 205 and the engagement of the coupling member 225. At the same time, the pawl 253 disengages.

   The lever 251 is released and the roller 250 is drawn into the recess of the cam disk 249, where by precisely aligning the playback device with the selected record and moving the surface 156 into the correct position in relation to the projection 114, as Fig.21 shows. At the same time, the playback device 4 is in the position shown in Figure 1, so that the left side of the record is played.

   The playback device is effective in both possible positions in the same way, only that in the second position the playback of the right-hand side; Side of the record.



  The gear 227 is rotated approximately half a revolution; that is, until the cam disk connected to it opens the switch 261, whereupon the motor 204 is de-energized, goes off and stands still, while the drive motor 31 of the turntable continues to rotate due to the closed switch 26G.



  During the half revolution of the gear 227, the cam 176 is moved away from the actuator 174, thereby enabling the rod 171 to move backwards under the action of the spring 175. This causes the levers 168 and 51 to rotate clockwise according to FIG. 2 in order to get the selected record out of the magazine 3 and to bring it between the rods 191, whereby it is supported by the channel-like transmission element 51. Immediately before the end of the transport path, the transmission element 51 comes into operative connection with the pin 48 and presses the latter downward.

   At the end of the movement of the element 51, the plate is on it and is in contact with the stop strip 270.



  The hood 88 of the playback device 4 causes the lifting of the record from the transmission element 51 and from the stop strip 270 and the application to the sound turntable and locking on the latter for the purpose of enabling playback.



  At the end of half a revolution of the gear 227, the belt 177 is moved backwards and the pawl 158 is brought forward so that the lever 143 swings forward and pushes the actuated selector element 103 back into its normal position.



  As mentioned, the motor 204 is idle for the duration of the playback of a record. At the end of the playback, the switch is closed for a certain period of time. The switched on motor 204 rotates the gear 227 for the purpose of returning the disc played from in the magazine. The switch 81 remains closed until the switch 261 is closed as a result of the actuation of the switch cam 241. When the record has been returned to the magazine, switch 2:60 is opened, and when switch 140 is also opened, the machine stops.

   But if the switch 140 is closed, if there are other selected, not yet played disks, the gear 227 continues to rotate until the pawl 235 is disengaged, whereupon the drive is transferred to the transport device 11 and the activity until the last one is played selected disk is continued.



       If the transport device arrives at the end of a direction of movement, the following processes take place: 1. The rail 213 is moved into the other limit position, the coupling member being in active connection with the other of the two bevel gears 197 or 198; 2. the playback device is about its vertical axis according to the Arbeitsverbin training between the one rack 17 with a pin'21, and 3. the oscillating member 147 is pivoted by one of the stops 153 from one limit position to the other.



  The playback of the left-hand sides of the records takes place during the intervals between the movements of the playback device, while the playback of the right-hand sides is performed during the intervals during which the playback device moves in the other direction. becomes. When all the selected disks have been played, the machine will stop automatically.

 

Claims (1)

PATENT CLAIM Gramophone with automatic record changing device with a magazine intended to hold records and a playback device, the magazine and playback device being movable for the purpose of bringing any record of the magazine into the playback position of the playback device by means of disk selection members, cladureh indicates that the playback device is (4) a platter (30) has and is rotatable by means of a drive device by at least approximately 180 around an axis which is at least approximately perpendicular to the axis of rotation of the turntable, for the purpose of moving the playback device in two playback positions, each of these positions playing the one corresponding side of the selected Record made possible. SUBCLAIMS 1. Gramophone according to claim, characterized in that the axis around which the playback device can be rotated lies parallel to the plane of the records in the magazine and is vertical. 2. Gramophone according to dependent claim 1, wherein -which the record magazine is stationary and the Abspielvorriehtung rotatable on a parallel to the magazine to and fro moveable. Transport device is arranged, characterized by organs (16, 17, 21) which are designed such that at the ends of the conveyor (11) In one or the other direction of movement the path covered causes a rotation of the playback device (4) on the transport device by at least approximately half a turn, the playback device so designed and with adjustable selectors (103, 104) for the records connected is that it allows the left-hand sides of the records to be played when they are shifted in one direction, while the right-hand sides of the records can be played when they are shifted in the opposite direction. 3. Gramophone according to dependent claim 2, characterized in that the adjustable selection members (103, 104) are arranged in the magazine on the sides of each record and interact with organs (143, 147) located on the transport device (1.1) in such a way that the movement the transport device is interrupted and the playback of a record is initiated, of which organs the one (147) are adjustable so that the selection members on the left side of the records are effective when the transport device is moved in one direction while the Wählglie which are effective on the right sides of the records during the movement of the Transportvorrich device in the opposite direction. 4th Gramophone according to dependent claim 3, characterized in that a central, axially displaceable hood (88) is arranged on the turntable (30), which hood can be pushed into the disk and moved out of the latter, which hood also carries pivotable locking members (91) which, when the hood is sunk into the turntable, lie within the latter, but are pivoted when the hood is moved out of the turntable in order to hold a record on the turntable. 5. Gramophone according to Unter claim 4, characterized by a support (100, 101) opposite the turntable (30) for holding a record in front of the plates, which during the period of exit of the hood (88) from the turntable and transferring the locking members ( 91) is effective sam in the holding position for the record.