DE416848C - Device for ringing bells driven by an electric motor - Google Patents

Description

Device for ringing bells driven by an electric motor. According to the Union Treaty of z. June tgt the PrioritZit t claimed on 27 February 1923 due to the application in Switzerland. Drives for church bells and the like are known in which the bell is so positively connected to an electric motor that its armature takes part in every oscillation of the bell back and forth. There are also drives in which the motor or the bell set a device for reversing and temporarily interrupting the drive in alternating motion, so that a regulation is made to prevent the normal bell vibrations from being exceeded.

In the case of the present bell drive, the aim is to use these known per se Measures of the drive by means of an electric motor as well as that of the: motor or the bell driven control switch and breaker with new, simpler means achieve as well as organically connect with each other and expand so that the drive duration and swing height of the bells must be set precisely.

According to the invention this is achieved in that one of the motor circuit independent control weak circuit is applied in which the in a known manner driven control switch together with one that protects against bell overshoot Breaker as well as the one operated by the weak current Magnetic switch of the motor circuit are, and that the control switch by means of an offset Stop pins and rimmed rotatable disc on two roller shift levers acts alternately and interrupts the weak current with a mother moving back and forth, when the bell rings too high.

The drawing shows the new bell drive, namely show: Fig. I the circuit diagram of it, off ;. 2 is a side view of the control switch, FIG. 3 is a view of the interrupter preventing the bell from overshooting, and FIG. 4 is a longitudinal section through the control switch along line AB in FIG. 2.

A sprocket 3 is seated on the axis i of the bell ? The magnetic switch 6 for the power flow of the electric motor 5 is installed in the lines 7, 8, 9 of a weak current circuit fed by the power source 65; In addition, the control switch io and the interrupter i i are also located in the weak circuit. The manual switch 12 is used to close and open the weak circuit.

The magnetic switch 6 consists of the iron cores 6 ', 6 ", which through the non-conductive rod 6 "'are connected. Around the iron cores 6', 6" are wire windings 62, 63 arranged, which are also in the weak circuit. The weak current flows through these windings alternately and pushes the switching rod 6 '' 'up or down, so that the shift lever 6 "" the power flow through the electric motor 5 in one or in another direction and thereby the motor 5 changing directions of rotation give. Two springs 64 which engage (above and below) the rod 6 'to 6 "', lead this and the shift lever 6 "" again and again to the middle, currentless position back when the bell swings freely through the middle position.

The control switch io has the control disk 13, which can be rotated loosely on the shaft 14 rests between two friction disks 15, 16, of which the former 'on the shaft 14 is stuck, while the other is longitudinally displaceable on her and of the spring 18 is pressed. The fixed collar 17 supports the spring 18. The shaft 14 is driven by the motor 5 by means of the chain wheels 19, z 1 and the chain 2o; however, the drive could also take place from the bell axis. The disc 13 has a ring of holes 22 for any insertion of pins 23, 24, which on Hit the cam 26 of the bearing block 25, the rotation of the Sche'llle na-li b_iden Sides and so limit the swing height of the bell. The disc 13 has running edges 27, 28, on which the shift levers 31, 32, pressed by springs 33, by means of rollers 29, 30 run and their power circuit boards 34, 35 alternate with the fixed power circuit boards Press 36, 37 and close the low-voltage current. There are locking lugs on the levers 38, 39, on which a slide 4o is pushed alternately when the relevant Lever 31 or 32 is switched off. The slide 4o moves around the pin 41 rotatable lever 42, which is suspended from the shaft 14 by friction disks 45, 46 entrained fork lever 43 is included on the end pin. The disks 45, 46 are standing under the pressure of the supported spring 44. The fork lever 43 can only do so much participate in the movement of the shaft 14 as the lugs 38, 39 of the levers 31, 32 a Allow the slide 4o to move.

The interrupter i, which is also in the weak circuit, has i the two shift levers 49, 5o, swinging around pivot points 47, 48, which in normal Bell vibrations with their conductive plates 51, 52 by springs 53 against fixed power switch plates 54, 55 pressed and the low power kept closed within the limits determined by the control switch io. -The other ends of the levers 49, 5o are in the range of motion of the pins 56, 57 of a nut 58, which is on the threaded end of shaft 14 is seated, depending on its direction of rotation or runs here and by means of the pin 59 in a fixed groove 6o leads (Fig. 3,). In the event of excessive bell vibrations, the nut 58 is also moved far back and forth, strikes the lever 49 or 5o and interrupts the low-voltage current.

The electrical connections can be seen on the circuit diagram (Fig. I) recognize the individual parts of the device described.

The device described works as follows. When the manual switch 12 is closed, the weak circuit is closed. In the circuit shown in fig . This left-hand movement of the bell was initiated by pulling the motor on the bell in which the edge 28 had pressed the roller 3o together with the lever 32 and brought the plates 35, 37 into contact and closed the low-voltage current. As a result, the winding 62 (Fig. I) came into effect by placing the contact lever of the magnetic switch 6 in the upper dashed position for the power current. However, since the edge 28 will soon come to an end, the lever 3a, together with the roller 30 , will snap upwards and, by separating the plates 35, 37 from one another, interrupt the weak current and thereby also the motor current. The bell swings out freely to the top left and then turns back. During the reversal, the edge 27 then presses the roller 29 together with the lever 31 downwards and brings the plates 34, 36 into contact, after the slide [o had previously moved away from the nose 38; the weak current now flows through the winding 63, pulls the switch 6 downwards and reverses the direction of the force current. The motor now pulls the bell over to the right for a while, but stops immediately when the roller 29 has slipped off the edge 27. The bell now pulls the motor with it again until the oscillation reverses, where the motor is switched on again and gives the bell new drive and the game of the gear lever repeats itself.

The vibrations of the bell are due to some cause Wind pressure or lower resistance in the axle bearings of the bell or the like too high, so the nut 58 continues as usual, hits the lever .49 or 5o, interrupts the current at 51 to 54 or 52, 55 and thus also the motor current for as long as the normal bell vibrations are exceeded.

As a final limitation of the deflection of the control disk 13 after The stop pins 23, 2 [, which are used in a suitable manner, are used in both directions and hit the cam 26 in the desired end positions of the disc 13. Be at the same time the shift levers 4.9, 5o by adjusting their pivot points 47,: 18 (not shown) changed, the drive duration and the swing height of the bell can be precisely regulated.

Claims (1)

i PATENT CLAIMS: i. Device for ringing bells with drive by an electric motor which is inevitably connected to the bell in such a way that its armature joins every back and forth oscillation of the bell, and in which the drive of the device for reversing and temporarily interrupting the bell drive by the motor or the bell itself is regulated, characterized in that the control weak circuit (7, 8, 9, 12, 65), which is independent of the motor circuit, in which the control switch (io), the interrupter (ii) and two windings (62, 6;) one Magnetic switch (6) for the motor circuit are arranged in such a way that the control switch (io) is provided by means of a displaceable stop pin (23, 2.1) and edges (27, 28), in the same way as the motor or the bell itself rotating disc (13) acts alternately on two roller shift levers (34, 32) and their switches (34, 36 or 35, 37) and by means of a nut running on the thread of its shaft (14) (58, 56, 57) and switch lever (49, 50) as well as their switch contacts (51, 54. or 52, 55) have a low-voltage current interruption, by which switching on and off the low current also causes the switching on and off of the motor current will. z. In the device for ringing bells according to claim i, an arrangement for reversing the direction of rotation of the electric motor with the aid of the controlling low-voltage current, characterized in that the electromagnetic changeover switch operated by the low-level control current consists of two alternately excited coils (62 and 63) one above the other, in which a switch rod (6 ', 6 ", 6"') held resiliently at the upper and lower end is displaceable, which the heavy current switching contact lever (6 "") depending on the excitation of one or the other control coil (62 or 63) upwards or folds down and thereby sends the supply current in one direction or the other through the electric motor (5) , while when there is no current in both coils (62, 63), the switching rod springs into its central position, in which the electric motor remains de-energized.