DE1285026B - Adjustment gear for televisions - Google Patents

Description

The invention relates to setting or gearboxes for televisions, which are designed to receive two programs. So far such devices are equipped with separate operating handles. The coarse and Fine tuning can be carried out on the selected station. There is one for every grip Reading disk or the like. Associated. For example, to receive the so-called 1. and 2nd program in Germany devices are known in which the setting gear Equipped with twelve switch notches for the 1st program for setting to twelve transmitters is, while the second gear is stepless with the help of visual marks on the 48 stations of the 2nd program can be set.

The invention simplifies the operation of the television sets Aimed for two programs and achieved by the fact that a single setting and Toggle handle is provided on a shaft which, in addition to being rotatable, can be pivoted at the same time and is mounted to be longitudinally displaceable in such a way that, by pivoting, the shaft is in drive connection with one or the other of the two channel selector gear, by sliding it lengthways is brought into drive connection with the associated fine correction means. At a preferred embodiment of the invention is the shaft in a sleeve against a The return spring is mounted to be longitudinally displaceable, and a molded bearing piece is attached to the sleeve attached, which has roof-shaped stop surfaces extending under the pivot angle. A bearing housing accommodates the fitting and cooperates with its resilient cover the stop surfaces together. To the drive connection when swiveling the adjustment handle shaft to reliably produce with the channel selector in question is the preferred one Execution of the invention on the adjustment handle shaft a bevel gear longitudinally displaceable, but rotatably arranged and has a neck piece and as an extension of the hub on this then a wide collar, with the neck end face of the Bevel gear and the opposite collar surface each have the angle of the roof surfaces of the shaped piece having conical surface and on one perpendicular to the one another parallel drive shafts of the two channel selector gears standing slotted bearing plate the neck piece of the bevel gear and the two cone shells when pivoting and rotate the shaft positively. If the setting gear what is known, at least one of the number in one of the two channel selector gear the adjustable transmitter provided corresponding locking device can be on a the output drive shaft of the channel selector gear provided with the locking device upstream, locking intermediate shaft that interacts with the swivel shaft bevel gear transmission bevel gear are firmly attached and, with it via an equiaxed Connected screw thread, a spur gear slidable on the intermediate shaft, which with a pinion fixed on the drive shaft constantly meshes, and also on the A disc fitted with fine adjustment screw cams is attached to the output shaft, those on one of the alignment lines of the standing in the swiveled-out position, in one Screwdriver blade ending adjustment handle shaft lie pierced circular line and their setting height by means of a mounted on the frame of the setting gear Feeler lever on the forehead of the other end of the pinion resting against a return spring is transmitted. The latching device is preferably designed as a ball latch. To read off the setting, the end of the pointing towards the setting handle shows the Intermediate shaft of the locking channel selector gear or the output shaft of the other Channel selector gear indicator disks attached. By the swivel movement of the shaft of the setting gear, other shifting processes can also be initiated. So can For example, when switching from one program to the other, an optical range display can be operated, lighting devices and signals can be switched on or over become and the like m.

Further features and advantages of the invention emerge from the following Description of an exemplary embodiment from the drawing and the claims. the The drawing shows a schematically simplified representation and an enlarged scale in plan view, partially in section, an adjusting and switching gear according to FIG the invention.

With 10, 11, 12 are the work plates and with 13, 14, 15 are the work pillars of a frame in which the gear elements of the adjustment and changeover gear are stored. In the front work plate 12, the adjustment shaft 16 is at 17 (in the plane of the drawing) pivoted. For this purpose, there is a semicircle on the work plate 12 Formation 12 a attached, into which a fitting 18 corresponding to it fits. This Fitting is fastened by means of screws 19 on a sleeve 20, in the bore the adjusting shaft 16 and its extension 16 a lead. The sleeve 20 also takes the return spring 21, which rests at one end on the sleeve base 20 a and at the other end at the front end 16 b of the stronger shaft part 16. The molded piece 18 has at his the rounding 18 a opposite side two identical roof surfaces 18 b and 18 c on, which are symmetrical to the axis of the adjustment shaft 16,16 a and the task have, in cooperation with the attached at 22 resilient bearing cover 23 after Kind of a tilting clamping mechanism, the pivot shaft 16,16 a non-positively in its end positions to hold on.

On the part 16 a of the adjusting shaft 16, the bevel gear 24 is longitudinally displaceable but non-rotatably arranged. At its smaller-diameter face 24 a, the wheel hub continues in a neck piece 24 b, and this ends in a wide collar 24 c. The wheel face 24 a and the inner surface 24 d of the federal government are designed as conical shells and have the same opening angle with one another, the opening angle being equal to the angle of the roof surfaces 18 b, 18 c on the bearing fitting 18. The bearing plate 11 is slotted in the width of the neck piece 24 b, so that as a result and through the conical outer surfaces 24 a and 24 d in connection with the surfaces of the work plate 11 on both sides, a forced guidance is created, which the bevel gear 24 when pivoting the setting shaft 16 in each case the correct position of engagement with one or the other counter-bevel gear 25 or 26 of the two channel selector gears designated I and II for the 1st and 2nd program respectively leads.

The bevel gear 25 of the first channel selector gear, which is rotatably and immovably mounted on the shaft 27, is assigned a ball locking device, consisting of the locking balls 28, locking ribs 25 a on the larger-diameter face of the bevel gear 25 and ball pockets 11 a in the bearing plate 11 and on the plate 11 attached spring claw 29 for resiliently pressing the locking balls 28 25 to the underside of the bevel gear to the smaller diameter end side of the bevel gear sets 25 in a recess formed as a screw thread hub 25 b continues, the hub at 25 c is bored to provide a recoil spring 30 which has the task of pushing the pinion 31, provided with a corresponding nut thread, away from the wheel 25. The pinion 31 is therefore longitudinally displaceable and rotatably mounted on the shaft piece 27 a. The transmission wheel 32, which is attached to the output shaft 33 of the program selector gear I, meshes with the Ritze131. This shaft is supported between the work plates 10 and 11. On the shaft 33, a disk 34 is also attached, which is occupied with screw cams 35 on its beveled edge 34 a. The screw cams 35 sit on a circle (not shown) which is pierced by the (imaginary) axis 16 c of the setting shaft 16. Furthermore, the bevel surface 34 a runs perpendicular to the axis 16 c. The screw cams end on their side facing the work plate 10 in slotted heads 35 a and can be rotated by means of the screwdriver blade 16 d designed front end of the setting shaft part 16 a for the purpose of fine adjustment. On the work plate 10, a double-armed feeler lever 38 is mounted at 37, the arched arm 38 a of which rests on the screw cam head 35 a, which is aligned with the adjusting shaft axis 16 , thanks to the locking device on the wheel 25 . The screw cam height sensed by the lever arm 38 is transferred to the other lever arm 38 b, which rests with its rounded end 38 c on the outer face of the pinion 31 a. 39 is a pressure spring attached to the work plate 10, which holds the lever 38 b in contact with the wheel end 31 a. Depending on the height to which the screw cams 35, 35 a are set, an axial adjustment movement is superimposed on the pinion 31 by means of the sensing lever 38 , which is superimposed on the setting value with respect to the output shaft 33 of the channel selector gear I, which is superimposed on the setting shaft 16 and wheels 24, 25 have been placed on the intermediate shaft 27. The reading disk 40 is loosely rotatably mounted on the end 27 b of the intermediate shaft 27 protruding on the front side of the work plate 12; it receives its drive via the pinion 41 fixed on the shaft 27 and the transmission gears 42, 43, 44, of which the wheel 44 is firmly connected to the reading disk 40 . The channel selector gear I is designed in such a way that with two revolutions of the setting shaft 16 the intermediate shaft 27 also performs two revolutions, the output shaft 33 however only one revolution and also, thanks to the translation 41, 42, 43, 44, the reading disk 40 one revolution. The ball locking device 25 a, 28, 29 should have twelve notches in the example. The setting is made by turning a (not shown) setting and switching handle on the shaft 16, initially roughly setting and the shaft 16 is in its position (shown in the drawing) advanced towards the end of the handle. A correction value is automatically superimposed on the coarse setting on the basis of the presetting of the screw cam 35 via 35 a, 38 a, 38 b, 38 c, 31 a, 27, 25, 32 . By hand an additional fine adjustment can be done in that the setting shaft is pushed 16 inward until the designed as a screwdriver blade portion 16 d in the helical slot 35 b on Schraubnockenkopf 35 a engages and now the height of the Schraubnockens can be corrected, said correction movement, as described, is transmitted from the sensing lever 38 in the transmission to the output shaft 33.

The channel selector gear II for the 2nd program is designed in the example for continuous setting and consists of the shaft 45 mounted in the bearing plates 10, 11, 12 , bevel gear 26 attached to it, cam disk 46 with fine adjustment cams 47 and indicator disk 48. 45a is the output shaft part of the channel selector gear II. Switching from the channel selector gear I takes place (in the drawing) by pivoting the setting shaft 16 clockwise; The transmission bevel gear guides itself on the work plate 11 and is held in engagement with the counter bevel gear 26 by the resilient contact of the roof surface 18 b on the bearing cover 23 . The fine adjustment of the screw cams 47 takes place in the same way as that of the screw cams 35, but a correction device, which could also be present, is omitted.

Claims (7)

Claims: 1. Setting gear for television sets for receiving two programs, marked by a single setting and switchover handle on a shaft (16, 16 a), which is simultaneously pivotable and longitudinally displaceable and by pivoting in drive connection with one of the two channel selector gears ( I or 11), is brought into drive connection with the associated fine correction means (35 or 47) by longitudinal displacement. 2. Adjustment gear according to claim 1, characterized in that the shaft (16,16 a) is mounted in a sleeve (20) against a return spring (21) so as to be longitudinally displaceable and on the sleeve (20) a shaped piece (18) with the pivot angle corresponding roof-shaped stop surfaces (18 b, 18 c) is attached, which is received by a bearing housing (17), the cover (23) resiliently interacts with the stop surfaces (18 b and 18 c). 3. Adjustment gear according to claims 1 and 2, characterized in that on the shaft (16, 16 a) a bevel gear (24) is arranged longitudinally displaceable but non-rotatable, the hub of which is in a neck piece (24 b) and a wide collar ( 24 c) continues, the neck-side end face (24 a) of the bevel gear and the opposite collar surface (24 d), which form a conical surface having the angle of the roof surfaces (18 b, 18 c) of the shaped piece (18) and at a perpendicular to the mutually parallel drive shafts (27, 33, 45) of the two channel selector gear (I and 11) standing slotted bearing plate (11) to cause during pivoting and rotating the shaft (16, 16 a) form-fit. 4. Adjustment gear according to claims 1 to 3, wherein at least one of the two channel selector gears one of the number of adjustable transmitters corresponding locking device is provided, characterized in that on one of the output drive shaft (33) of the locking device (25 a, 28, 29) provided channel selector gear (1) upstream, latching intermediate shaft (27), the transmission bevel gear (25) cooperating with the swivel shaft bevel gear (24) is firmly attached and, connected to it via a coaxial screw thread (25 c), a on the intermediate shaft ( 27) slidable pinion (31) which constantly meshes with a spur gear (32) attached to the output drive shaft (33), with a disk (34) fitted with fine adjustment screw cams (35) also being attached to the output shaft (33), which lie on a circular line pierced by the alignment line of the swiveled-out setting handle shaft (16, 16 a) ending in a screwdriver blade (16 d), and the setting height of which is transferred by means of a feeler lever (38, 38 a, 38 b, 38 c) mounted on the frame (at 37) to the end (31 a) of the screw pinion (31) resting against a return spring (30) on the other end. 5. Adjustment gear according to claim 4, characterized in that the locking device is designed as a ball detent, wherein on the outer end face of the bevel gear (25) seated on the intermediate shaft (27) ball detents (25 a) and on the adjacent bearing plate (11) pockets ( 11 a) and resilient ball sockets (29) are attached. 6. Setting gear according to claims 1 to 5, characterized in that on the end facing the setting handle (27 b) of the intermediate shaft (27) of the channel selector gear (1) or the output shaft (45, 45 a) of the channel selector gear (11) display discs are arranged. 7. setting gear according to claims 1 to 6, characterized in that that the channel selector gear with detent setting (1) is designed such that at two turns of the adjustment handle of the adjustment shaft (16) the indicator disc (40) and the output shaft (33) each perform one revolution, while the intermediate shaft (27) makes two revolutions and the indicator disc (40) via a reduction gear (41, 42, 43, 44) in a ratio of 2: 1. B. setting gear according to one or several of claims 1 to 7, characterized in that the switching movement the setting and switching shaft (16,16 a) control operations for signals, e.g. B. for the purpose of displaying the range.