DE1773113C - Electromagnetic slave clock - Google Patents

Description

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The invention relates to an electromagnetic fi g. 3 is a view of one contained in the clockwork

Slave clock with a stature that is due to the main gear transmission on a larger scale, and

clock coming, alternating positive and negative F i g. 4 a section according to Liive IV-IV of

Current pulses at predetermined time intervals by- Fig. 3.

The clockwork shown has a base plate 2 (1 Um.iiagnetisierung the stator is rotated by 180 "and a plate 5 parallel to the same, in wcl- and via a gear mechanism the clock hand or hands A rotor axis 1 and a minute hand drive. Most of the time, the gear mechanism supports achse7. On the armpit, which is not initially turned into an axis on which a mi- ferromagnetic material, for example made of rust-proof slot pointer, sits, whereby from The rotation of this axis consists of the steel, there is a disk-shaped magnet 2, which is then centered on the rotation of an hour hand axis, the poles of which are derived from N and S in FIG Rotor 2 is not in its new position between the stator sizing two, oil shoes 2Γ and 21 "of two stator iron 1» stands still, but swings around the same, with the and 10 ", which are through ei; i square yoke iron 22 first oscillations z. B. can be about 3 () ^lJ , 15 are connected to each other, on which an electrical results from the coil 4 usually used so far. The yoke 22 is with two screws 2Λ deten gearwheels that also the minute hand is attached to the stator iron 10 'and 10 ", which carries out their oscillations, or, to put it clearly, on the one hand by means of screws 24 and spacers with" trembles " To avoid the pointer, the base plate 20 and the circuit board S connected brakes have already been provided, which are according to so. The stator iron 10 "is somewhat longer than the every switching step the minute hand quickly to the still stator iron 10 ', so that the air gaps between bring the stand. These brakes are, however, relatively grainy pole pieces 21 'or 21 "and plicated after the rotor 2, must be set very precisely and widen at the bottom or at the top. This is subject to relatively rapid wear. if as a result <one in the coil 4 - In order to avoid the transmission of the oscillations of the rotor 25 the current of the pole piece 21 'a south pole 5 "and the armature in slave clocks, pole piece 21" was a north pole N' , the magnetic one too A pin and slot coupling is already set in front of the axis / V - S of the rotor 2, as shown in Fig. 1, in which the pins are shown in a figure by an arrow Since the current in the coil 4 runs in the opposite direction between the pins and the slots, the pole shoes 21 'and 21' will inevitably have their considerable play also change polarity, and the rotor! will in Richcine such a solution a tremor of the pointer to the direction of the arrow 25 rotate 180 °. The coil 4 sequence. receives a current pulse from one every minute

The purpose of the present invention is to reduce the tremor of the master clock, namely alternating positive and negative pointer while avoiding these disadvantages to 35 tive Strominipulse. The rotor 2 thus leads to avoid. The slave clock according to the invention draws a half turn every minute.
net is characterized in that on the rotor axis two teeth are provided on the minute hand axis 7, which are offset by 180 ° in the circumferential direction to transmit the rotation of the rotor axis 1, a gear 26 is provided in front of teeth, which are seen with two on the same, which is now with reference to Fig 3 and 4 closer to the axis of fixed gears with the same number of teeth 40 is to be described. The axis 1 has two working together, the notches 27 'and 27 "lying next to one another by half a tooth pitch, offset from one another and tooth gaps of which have a semi-circular profile in the circumferential direction by 180 ° from one another, while the transverse is set, so that the In the relevant places, the rotor axial teeth cut the shape of circles - the remaining axial parts 28 'and 28 "have a segmented segment with a central angle of not quite 45 ment-shaped cross-section, which extends over an 18 (T and almost free of play in the mentioned central angle of slightly less than 180 °, tooth gaps fit. With this design, the gears shift as teeth almost free of backlash in semicircular fördie rotor axial teeth when gaps 29 'and 29 "of two adjacent pulses arrive, while gears 3' and 3" lying in the meantime can intervene . Which lock them against any rotational movement. 50 gears 3 'and 3 "si nd on a common hub

It is indeed in a synchronous clock with a large over-13, which is known on the minute hand axis 7 fixing to the pointer mechanism, sitting directly in the. The gears 3 'and 3 ″ are preferably rotor shaft two axially and in the direction of rotation around made of plastic, e.g. nylon, and can be made 180' offset millings as drive teeth - possibly also from a single one, by injection molding Completely different cast-on processes exist. To meet the tooth requirement. Since synchronous motors only have a very low starting torque 3 'and 3 "each have 30 teeth 30' and 30", they should be self and are around 6 ° offset against each other so that they allow the armature to run. For this purpose they have a total of 60 teeth explained above, rotated by 180 °, the toothing of the mating gears engages, and it can be seen that alternately in each case

The invention is hereinafter applied to one of the teeth 28 'and 28 "on one of the teeth The embodiment shown in the drawing meets 30 'or 30 "in more detail and is then explained in the following tooth. Bs shows a gap 29' or 29" occurs, while the other tooth

F i g. 1 a rear view of the movement of a 65 28 'or 28 "from the preceding tooth gap 29"

electromagnetic slave clock, if one or 29 'is removed, in which it is located. Around

Cover here a clamping of the teeth 28 'and 28 "to the Fig. 2 is a section along line IMI of Fig. 1; To avoid teeth 30 'and 30 ", the latter are on

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Pirem foot with a small recess 3Γ resp. Jl "strand.

When the rotor axis 1 executes half a rotation as a result of the magnetic reversal of the pole shoes IY and 21 ″, it does not come to a standstill immediately, but it oscillates back and forth with decreasing amplitude about its new position of equilibrium The rotor 2 has no effect on the position of the gear wheel pair 3 ', 3 ", because the teeth 28' and 28", which are delimited in a circular arc on their circumference, can rotate freely in the semicircular tooth gaps 29 'and 29 "and an effective engagement of the next tooth only takes place at an angle of about 90 °, which is never reached even with the first pendulum swing. The tooth 28 'or? 8 "locks the gear 30' or 30" against any rotational movement until the other tooth 28 "or 28 'comes into effect. The pendulum-related gradual rotation of the rotor - ao axis 1 is thus transferred to the minute axis 7 with complete elimination of these pendulum movements, so that the corresponding trembling of the minute hand, not shown, is also avoided.

Although this is necessary for the understanding of the invention »5 Is not important, it should also be mentioned that a pinion 32 sits on the minute hand axis 7, which is in a Gear 33 engages, which is firmly connected to a pinion 9 which meshes with a gear 8. The gear wheel 8 is firmly connected to a conventional, hollow hour hand shaft 34. At 14 one is in whole schematically indicated terminal block designated for the connection of the master clock coming and leading to the coil 4, electrical lines, not shown, are used. An opening 12, which is fastened in a projecting tab 35 of the base plate 20, is used to fasten the Clockwork. An adjusting nut 11 screwed onto the rear end of the rotor axis 1 is used, according to FIG Removal of a cover 6 for setting the minute hand.

Dar; Gear 26 can also be applied to a slave clock that is set at one-second intervals Receives current pulses of alternating polarity from the master clock. In this case it becomes a pendulum the second hand: axis or the second hand avoided.

Of course, the slave clock can also only display a single one over a 24-hour dial.

is switched.

Claims (6)

Patent claims: 1. Electromagnetic slave clock with a stator, which is magnetized by alternating positive and negative Sf.romimpulsi coming from the master clock drives the clock hands, characterized in that teeth (28 ', 28 ") offset from one another by 180' in the circumferential direction are provided on the rotor axis (1), which are connected to two gear wheels (30, 30 ") with the same number of teeth, which are offset from one another by half a tooth pitch and have tooth gaps (29 ', 29") of a semicircular profile; while the cross-section of the rotor axial teeth (28', 28 ") has the shape of circular segments with a central angle not quite 18 (Γ and fit into the mentioned tooth gaps with almost no play. 2. slave clock according to claim 1, characterized in that the rotor axis (1) has two incisions (27 ', 27 ") has that the rotor axis teeth (28', 28") from the relevant points Remaining parts of the rotor axis exist and that the two gears (30 ', 30 ") are the same are great. 3. slave clock according to claim 1 or 2, characterized in that the rotor axis (1) from not ferromagnetic material. 4. slave clock according to claim 1 or 2, characterized in that the gears (30 ', 30 ") each have thirty teeth (29 ', 29 ") and sit on a minute or second hand axis (7). 5. slave clock according to claim 1 or 2, characterized in that the gears (30 ', 30 ") from Made of plastic and pressed onto a common hub (13). 6. slave clock according to claim 1 or 2, characterized in that the gears from one single piece made by injection molding. 1 sheet of drawings