FI59307C - KLOCKSPELSMASKIN - Google Patents

Description

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Federal Republic of Germany-Förbundsrepubliken Tyskland (DE) P 2756661.6 Proven-Styrkt (71) Herforder Elektricitats-Werke Bokelmann & Kuhlo, Goebenstrasse 106, D- ^ 900 Herford, Federal Republic of Germany-Forbundsrepubliken Tyskland (DE) Federal Republic-Förbundsrepubliken Tyskland (DE) (7 ^) Leit Zinger Oy (5 ^) Clockwork - Klockspelsmaskin

The invention relates to a bell ringing mechanism consisting of a drive motor connected to a clock crossbar, having a changeover switch controlled by a reversing gear connected to the drive motor and a switching device providing for each semi-oscillation, at a characteristic distance from its pivot points, an adjustable on-off signal.

In such known bell ringing machines (DE-AS 1 080 906), the reversing gear switching device consists of a cam plate with a cam, which after each half-oscillation in both oscillation directions takes the control element and through it Thus, for each direction of rotation, the position of the switch cams arranged on the guide plate according to the oscillation directions, which plate is synchronized with the clock, determines the on and off point of the switching point relative to the rest position of the pendulum device. By moving the clutch cam on the control plate, it is possible to cause the drive motor to switch off and switch on only after the opposite oscillation has started before the pivot point is reached on the other side of the impact. The clock thus makes its oscillating 59307 turn at the turning points without the actuator, whereby the chordal conditions improve as the tongue strikes the clock. However, the disadvantage of the known implementation is that the switching on and off on each side of the impact takes place with the same cam switch, so that the oscillation angle without use in the region of both clock turning points is the same on both sides of the clock. In this case, the non-tensile oscillation angles are not made different on both sides of the impact path in order to achieve different impact heights on both sides of the impact. However, the optimal tone of the clock is not achieved because the oscillating motion of the clock and the motion of the tongue inside it no longer match flawlessly. In addition, the adjustment of the switch cam on the control plate can only be adjusted when the bell-ringing machine is stationary, so that the "draft-free" oscillation range near the turning points cannot be varied while the bell is ringing, thus controlling its immediate effect on the bell ringing.

A motor reversing device for a bell ringing machine, controlled by an electric oscillator (DS-PS 2,952,013), is still known. The oscillator is formed by a rocker switch with two time elements, in which case the oscillation frequency is adapted to the oscillation frequency of the clock by means of an inclination-dependent switch element introduced into its oscillation system. The function of this coupling member is to trigger the rocker coupling at a certain angle of inclination close to the zero point of the hi-thaw system. In this case, the use of the clock is interrupted only in the area of the second pivot point of the oscillation path, whereby at the second pivot point, i.e. on the other side of impact, the clock is also forcibly controlled by the drive device at the pivot point. Both time elements in the rocker switch then operate in such a way that the angle of oscillation on the force-controlled impact side is fixed and thus the direction of the clock drive is changed. Both the time constants of the time bodies rocking switch, thus erisäätöiset so that it is force-guided sex-is-the turning point in the rotational direction of ring gear changes. With this known device, it should be ensured that the oscillation frequency of the oscillator also follows synchronously as the clock oscillation frequency changes. Improving the tone of the clock with this known switch is not intended.

The object of the invention is to improve such a bell-ringing apparatus, which with an electrical switching device which, at the beginning and end of each half-oscillation, enables a clock oscillation sector at both ends which is adjustable and does not require propulsion, so that both oscillation directions are "different" oscillation sectors, in which case ideal clocking is achieved during the call and also when different mutual oscillation heights prevail.

This object is solved by the bell ringing mechanism according to the invention in that the switching device has two separate electrical time joints which, on the basis of the trigger signal from the reversing gear at each reversing point,

A particular advantage of the bell ringing mechanism according to the invention is that on both sides of the clock, regardless of their oscillation height, the "draft-free" sector near the turning points can be modified and thus the "draft-free" movement of the clock before and after the tongue. This adjustment can be used in the current bell ringing machine so that the maximum achievable tone can be adjusted particularly easily. This equipment can be spatially separated from the bell ringing machinery, for example as a switching center, and can be taken back if necessary.

Additional advantages of the invention are set out in the subclaims and in the following description.

An embodiment of the invention will be explained in more detail below with reference to the drawings, in which:

Figure 1 schematically shows the bell ringing mechanism.

Figure 2 shows a circuit diagram of the switchgear.

The clock 1 (Fig. 1) is driven by a belt 4 driven by an electric motor 5 from a pulley 3 arranged on the clock shaft 2. The shaft of the electric motor 5 is connected by a slide switch (not shown) to a reversing gear 6, which can be formed as a microswitch or 4 59307 mercury switch. When the change in the direction of rotation of the electric motor 5 begins, the reversing gear 6 formed as a changeover switch changes to a position specific to the respective direction of rotation. The reversing gear 6 further controls, by a longer line 8, a switching device 7 connected to the drive device 9, which in each direction of rotation has its own left-right controller for the clock start-up delay and switching time.

The switching device 7 (Fig. 2) consists essentially of electrically regulated relays and R2 as well as motor protectors C1 and C2 for each direction of rotation. The time relays and R2 each have one fuse r1 and r2, while the motor protectors and C2 each have open and cn and c21 and each has three closures c12, c ^, c ^ 4 j "a respectively c22, c23 'c24 * The reversing gear clamp 6a is connected to the time relay and the shutter r1 and the reversing gear clamp 6b, respectively, is connected to the time relay R2 and its shutter r2.The contact of the shutter r1 is connected to the neutral conductor MP of the power supply via the motor protection C2 and the opener. The contact r2 is connected to the motor protection opener and the protection C2 is connected to the neutral conductor MP.The shutters c ^ 2, and c ^ 4 connect the drive motor 5 to the AC mains RST for left-hand traffic, while the shutters c22 and c24 connect the drive motor 5 to the AC mains RST for right-hand rotation.

The turning step 6 is in position 2 in Fig. 2 to use the clock in the oscillation direction right (Re). When the switch 10 is closed, the time relay R 1 wakes up within its wake-up delay set on the controller 11 and closes the circuit R 1 of the circuit breaker Ph via the reversing gear 6, the shutter R 1, the rest contact c 1, the motor protection actuator. The motor protection starts and connects the drive motor to the power supply c ^ 2, c ^ and c14 with its shutters. The drive motor 5 starts and rotates the clock in the oscillation direction to the right. However, it cannot yet bring the clock to its full oscillation height, but will soon stop under the influence of the weight of the clock and be forced to change its direction. Then the reversing gear 6 immediately switches on the other hand and switches off the first time relay R1 and the motor protector and applies voltage to the second time relay R2, which lights up within the excitation delay set in the controller 12 and connects the drive motor 5 to the AC mains. The clock now swings to the left (Li). The described event is repeated, and after a few oscillations, the clock has reached the desired oscillation height. The electrically controlled time relays and R2 are arranged so that the excitation or switching time can be adjusted by the controllers 13 and 14. The shutters r1 and turn depending on the time weather of the controllers 13 and 14 even when there is no voltage in the time relay yet. However, they open as soon as the voltage is switched off from the time relay, as happens in the start-up phase before the full oscillation height is reached.

The new connection ensures that for each oscillation direction, regardless of the time of motor start, according to the change of direction, the controls 11 and 12 and before reaching the desired oscillation height, the controls 13 and 14 can adjust the motor switch-off time so that the clock can oscillate and change direction. In this way, the clock can be made as even as possible.

Claims (3)

6 59307 A bell ringing mechanism comprising a drive motor connected to a clock crossbar, having a reversing switch controlled by a reversing gear connected to the drive motor, having a switching device which provides each half-oscillation at a certain distance there are two separate electrical time elements (R 1, R2) which provide on and off signals for each half-oscillation at independent turning points from each of the initial signals given by the reversing gear (6) at each turning point. A bell ringing device according to claim 1, characterized in that each time element (R 1, R 2) consists of a time relay connected to the voltage via a reversing gear (6), each having a time contact (r 1, r 2) connected to the reversing switch motor protection circuit. , whereby the switching delay and duration of the time contacts (r 1, r 2) of the time relay are adjustable. A bell ringing mechanism according to claim 1 or 2, characterized in that the reversing gear (6) is a reversing switch controlled by the slider of the rotor of the drive motor (5).