DE392636C - Device for ringing bells with the help of an electric drive - Google Patents

Description

Device for ringing bells with the help of an electric drive. The present invention relates to a device for controlling and regulating the electrical Electricity for motors that drive and ring church and other bells to serve. It is known to use reversible motors for this purpose, which have the bell alternately move in both directions, and face those of the current. Toggle switch is fed. These changeover switches are switched on and off by controls, operated by the movements given to the bell. With these well-known Devices, the bell receives its drive at one point, which is with the oscillation amplitude is changeable, and which is very close to the point at which the Direction of movement of the bell is reversed. On the other hand, the drive hears roughly in the center of the oscillation path to act, so that the nfotor the activity of a Imitates Glöckner's, that during the first part of the oscillation Expends force and this then comes to an end under your influence of the inertia of the bell lets go.

This failure to ring the bells brings various evils with himself. First of all, the drive takes place during part of the oscillation, in which the speed changes strongly, so that the bell at the beginning of the oscillation acts as a brake so that the motor works under unfavorable conditions. Further the first vibrations are very short, and the bell only comes after a number from -, cliwiiigiiiigen their correct deflection range and makes a sound. Since furthermore the distance over which the drive is effective increases with the width of the vibrations, It is often necessary to install a special device to prevent this the Schtvingtingsweit attained too dangerous a size. The known devices for the purpose in question here, accordingly, do not permit such a regular one Work like e; is necessary to provide the necessary. when ringing with several bells to achieve a harmonious effect, or to initiate the ringing of bells by a clockwork and turn off zti.

According to the present invention, in contrast to the previous Constructions, the distance for the drive to be given to the (.locke) is always the same held long and bounded by two fixed points, which are symmetrical to the center of the oscillation or lie at the resting point of the bell. These fixed points are so lacking that after the first oscillation, which begins in the resting point, the bell only turns on again motor drive experiences when it has reached a medium speed, which is about the same as their Höclistgesclitvincligkeit, so that the engine under can work in favorable conditions. This arrangement allows the apparatus to be used especially for a ringing with several bells. In this case, the time intervals to be able to pause exactly between the start of the ringing of the individual bells, used in a distributor that is operated by pushing one of the Bells work and the entry of the current to the various circuits the other bells regulate. So operated z. B. each bell has a switch that regulates the duration of the power supply to this bell, while one of the bells moreover another breaker operated, which in the to the circuits of the other Toggle switch assigned to bells is switched on to determine the time in your these other bells get their drive.

1 - in chimes of the kind described here can be activated by simply closing a single main switch activated by the movement of a Clockwork is controlled. For this purpose, the striking mechanism of the watch can be activated by means of a Lever triggered \ t-grounding, which is actuated by projections on a movable disc while the main switch is activated alternately by two hammers, which are driven by the striking mechanism.

How the refinement described here works and its advantages will now be explained in more detail with reference to the drawings, in which various Embodiments of the invention are shown schematically and by way of example.

Here Fig. R shows schematically the P: -, - dcl movement of a bell stating -_1 ° r contains the most relevant points of oscillation.

Fig. Z shows a bell whose switch is operated by its clapper will.

Fig. 3 and .I show the switch from the front on a larger scale and from the side. A11. 5 gives a schematic for the connection of the lines between Changeover switch and motor.

Fig. 6 shows another type of circuit breaker drive.

Figs. 7 and 8 show the application of the l: rfindun to chimes of three and four bells.

Fig. 9 gives a circuit diagram corresponding to Fig. J.

Fig. Io shows a modified form of the drive for the changeover switch.

Fig. Ii illustrates a for switching the ringing current on and off serving clockwork.

Fig. 1a is a diagram showing the relationships between the first Vibrations of the bell and the motor drive during these vibrations can be seen.

Fig. 13 and i.1 show the device from the front tin # 1 from the side which is used to control the 1lotor current switch (main switch) and through the Clockwork is driven according to Fig. I i.

Fig. 15 and 16 show two different positions of the rear derailleur wi-Aer, that regulates the repeated striking of the bells.

In Fig. I, the angle AOB shows the oscillation amplitude. that needs a bell to ring. In the bell devices available up to now, when the bell is in operation, a motor drive brings the bell from a point close to dead center A to the middle point 1) or to a point C or D which is close to this middle point D. Then a new drive moves them on their return from thinking point B to point D or to points C or E. According to the present invention, however, the bell is alternately from a point F, which is considerably below point A, to a point -G moves towards, which is symmetrical to point F with respect to the central point D. Then it is moved from G to F when it returns. The points G and F are chosen so that the bell has reached an average speed almost equal to its maximum speed when the driving force begins to act.

So, instead of doing a strong = braking at the end of each oscillation of the engine, rather the living power of the bell can be used to control the Support starting the engine. Moreover, since the points F and G are fixed, so the bell gets a very even and exactly automatic right from the start adjustable motor drive, while in the previous designs the Changeover switch initially operated by hand iv To bring strength to bear until everything was in order.

In the diagram according to Fig. 12, lines a and b correspond to points A and B in Fig. I, which limit the oscillation amplitude of the bells that are in full operation. The lines f and g correspond to the points F and G, between which the lines lie on which the drive acts. These stretches are made clear by the lines in question being drawn out more clearly. The lines f and g are symmetrical to the center line d. Already at the end of the first oscillation the bell reaches a position high enough to give a weak tone, and already at the end of the second oscillation the bell sounds at full strength and remains unchanged here, since the strength of the motor drive between the Lines f and g remain the same.

The automatic drive of the switch can be done in multiple ways Way done. In a very simple way, = shown in Fig. 2, the Wheel i of the bell 2 on its outer circumference a driver 3 in the form of a circular segment, whose length is that of the arch. FG according to Fig. I. When the bell 2 is in At rest, the driver 3 holds the switch .4 closed.

An embodiment of the switch is shown in Figs. An insulating body 5 is mounted in a frame 6, 7 such that it can oscillate. It carries two metal lamellas 8, 81, each of which has a carbon contact 9, 91. Two plates io, i I are mounted on the arms of the frame 6, 7, one of which has two contacts i 2, 12l-tin @ l, the other of which carries two such 13, 131. The contacts 9, 91 can strike against these four contacts when the body 5 is vibrated. leaves. An arm 1.4 is wedged onto the axis of the latter, and it carries a wheel r5 that rolls on the periphery of the driver 3. 16 is a resilient spring which is fastened on the one hand to the body 5 and which on the other hand slides in a milled recess 17 in the base plate 178. It has the effect that the movable contacts 9, 91 remain in the rest state in the middle .between the plates io and ri.

As Fig. -5 shows schematically, the contacts 12, 131- are with a the pole of the bell motor i9 and the contacts 121 and 13 with its other pole tied together. On the other hand, the movable contacts 9, 91 are connected to the Power line connected. The bell z is driven by the motor i9 by means of belts, chains or gears with the appropriate translation, Biobei das Noise caused by gears, for example, through installation in a tight-fitting Housing is rendered harmless.

In the idle state, the movable contacts 9, 91 are driven by the drivers 3 held in contact with one of the fixed contact pairs, e.g. B. with 12, 121, so that you only need to close switch 2o (Fig. 5) to switch the current to the To send the motor and set the bell in motion. The current then flows from +, 2o, 91, 121, 13, 19, 131, 12, 9 to -. The bell is then z. B. in the sense clockwise until then -where the wheel -15 the edge 22 of the driver 3 hits. The spring 16 then takes the body 5 and the parts fastened therein back to the middle position. The current is now interrupted and the bell rings its vibration ends and a new one begins under the effect of its own gravity. When the edge 22 hits the wheel 15 again, the lever becomes 1: 4 again depressed and brings the contacts 9, 91 with the contacts .13, 131 in contact. The motor then rotates in the opposite direction until the wheel 15 over the Edge 2i arrives, whereupon the bell. Is again left to its own devices. This game repeats itself with perfect regularity as long as the power switch 2o is closed remains, and the bell emits a sound from its first vibration.

Figure 6 shows a change in the mechanism that operates the switch. The motor i9 drives through a translation 23 z. B. a gear 2+, on the a chain 25 runs, the other end of which is above the bell wheel. The axis of the one of the gears is extended outwards. and carries a screw thread 26, on which a slide 3o is displaceable, a guide rod 2; at a Prevents rotational movement. When the bell is at rest, lies on this sledge the wheel i of the switch d. on. This works in the same way as in Fig. 2 has already been specified.

Uni to ring several bells ntan each of them with one Engine. which is controlled by a switch in the manner described above. So that the power distribution to the individual circuits, which the different Toggles included, in uniform and and constant; nd @ r @@@ eise `eschappen, if you apply according to the present invention, a distributor all through the motorized Impulse is actuated, which act on one or the other of the bells.

In Fig.; is shown a chime for three bells, the z. B. the Tön: Es, F and t_1 give. Here the distributor is actuated directly by the wheel i of the bell: 2 with the tone Es, which RaJ has two drivers 3 and 31 for diesel purposes. Around this wheel i, the uniswitch d., Which directly actuates the motor 19 of the bell finitely stretchable tone 1s in the manner just described, and two breakers, one of which consists of two single-acting parts 41 and d.1l, are all brought around this wheel i and feeds the current to the changeover switch g3, which drives the motor 28 of the bell with your quiff F 1; (! - (see Fig. 9). The other breaker 42 is double-acting and carries the current to the changeover switch .1.1. for your - Motor 29 of the e crouch down with your great G. The lisclialter 43 and 4d. Are operated by drivers which are arranged on the wheels of the bells F and G, which are not shown here the changeover switches 4, 4 ;, and dd. closed.

To set the bell in motion, it is sufficient to close a main switch 2o. Since the interrupters 41, 411 and q.2 are still open, the current initially only goes through the switch 4, so that only the motor ig is driven and the bell Es begins its first oscillation. If M and Ml, on the one hand, and N and NI, on the other hand, denote the outermost points of the passage of the edge 2i of the follower 3 or the edge 221 of the lateral liner 31, and if one assumes that the follower 3 initially moves towards M, nian sees that the interrupter 4.2 is closed by the driver 3, and the bell G now comes into action towards 1 # _n :: le @ the first oscillation of the bell-'s. During the second oscillation of the latter, the interbreelier 42 is first open: then the interrupters 41 and - .l are closed one after the other by the driver 3, and towards the end of the oscillation the interrupter 42 is closed again, but now by the participant 31 (Fig. 7). During the third oscillation, the sequence of the closings is 41, .4, ¢ 2, so that the sequence of the tones Es, C7, F. Es, G, F, 3: s, etc. is already from the first oscillation. The even-numbered vibrations are repetitions of the second vibrations and the odd-numbered ones are repetitions of the third. If the first oscillation had brought the passenger to Ml, the breaker 41 would have been activated during the even-numbered oscillations, but the breaker 41 would have been activated during the odd-numbered ones, so that the tone sequence would have been the same. The interrupters ql, ..il and q.2 (see also Fig. 9) interrupt the supply of electricity to the motors of the bells F and G and the Uniswitches 43 and .ll (according to Fig. 9, in Fig. 8 the designations .lil and 42, regulate the duration of the passage of these currents, reversing their direction from time to time.

Since the bell remains idle for a considerable amount of time at each dead point, it would be difficult to regulate more than three bells with the help of Manage organs that sit directly on the wheel of one of the bells, and one can then resort to an aid that can control the swinging movement in transformed into a continuous rotary motion. Fig. 8 shows such a device represents, which is intended to regulate the harmony of four bells that z. 13th the tones Es, F, G, As give. The wheel 1 of the bell 2, the z. B. the sound there is actuates a second wheel 5o by means of a crank 51 and a connecting rod 52, whose Has a guide 53 at the end. In this a pin 5.1 slides on one of the Spokes of the wheel i is attached. The guide 53 is dimensioned so that the wheel 5o can continue to follow its path during the silence of the bell 2, so (measure it gets a real rotation movement.

At the circumference of the wheel 50, two central liners 3 and 31 are fastened diametrically opposite each other, and around the switch 4 of the bell Es, the two parts 41 and 11 of the lower calculator belonging to the bell F are located , the C-interrupter .M2 for the bell G and the two parts 45 and 45 of the interrupter of the; flake Ais attached. The breakers are connected to the switches of the associated bells, as shown in Fig. 9. If one examines the curtains corresponding to Fig. 8, as before for Fig. 7, one sees that if the wheel 50 moves clockwise, then the driver 3, after it has passed the switch 4, the interrupters 45'-, 42 and 41 "are actuated one after the other, while the correspondingly designed driver 31 passes the interrupters 41 and 45 without closing them. The driver 31- then actuates the changeover switch 4. and the interrupters 45", 42 and 411. When the wheel 50 rotates in the opposite direction, the driver 3 first leaves the switch 4 behind and then closes the breaker 45. The driver 31 then actuates the breaker 42 before the driver 3 closes the breaker 41. In both cases the tone sequence Eb, A sharp, Ü, F, Eb, A sharp, G, F, Eb is precisely paused.

It can be seen that the regulator or distributor has different functions Way can be operated. Fig. 1o shows the switch 4 and the breaker 41, 41 "and 42 for a ringing of three bells, similar to the one in Fig.7. This switch and the breakers are operated by four catches 31, 32, 33 and 34, the sit on a pole 55. This is a back and forth by a push rod 56 going movement issued, -which the latter by means of an angle lever 57 by a Rod 58 is operated, the upper end of which is below the wheel of the regulating bell is hinged.

Since the bell ringing mechanism described can easily be put in and out of gear by just closing or opening a simple switch 2o, it can also be operated safely with the aid of a clockwork. In this case, according to A.bb. ii in the interior of the hour circle 6o arrange an auxiliary circle 61, which can be z. B. can be turned around once in 24 hours. This then receives openings 62 into which one can insert pins that strike against a lever 63 at the given time. This then releases an auxiliary device by means of a release device 64, which successively actuates two hammers 65 and 66, one of which is used to close and the other to open the switch 2o. The auxiliary device 64 is similar to the striking mechanism for ordinary clocks, but differs from this in that the usual vestibule of the striking mechanism is a steering wheel. is replaced, which is in connection with a slightly starting anchor, as in the alarm mechanism of an alarm clock.

This device slows down the movement of the striking mechanism considerable, and the more so the longer the anchor is. Because you can get one very easily If the starting anchor is used, it will start moving by itself if that Schlagm "Erlc released by the hour release with the help of lever 63 (Fig. 11) will.

Another change made to your known striking mechanism of a clock concerns the operation of two hammers 65, 66. It is known that in the movement devices of ordinary clock mechanisms the wheel that causes the impact of the hammer has pins on one side, each of which lifts the Hamnier and lets him fall again. Since the bell hammer has now been replaced by two switching hammers 65 and 66 for the subject of the invention, this wheel, which is designated 67 in Figs. 13 and 14, carries two rows of pins 68, 69, which alternate on the two sides of the wheel 67 are attached so that each pin 68 affects the hammer 65 so that it closes the switch 2o for switching on the bell ringing, whereupon a pin 69 lifts the hammer 66, which opens the switch 2o and stops the bell ringing. The time between the operation of the hammer 65 by a pin 68 and the actuation of the hammer 66 suspended by a pin 69 naturally on the rotational speed - of the wheel 67 from that is determined by the length of the anchor located in the previously described barrage.

If the ringing is to be interrupted and repeated a certain number of times, e.g. B. for funerals, a rake 70 is used for this purpose, similar to that used in a normal clockwork mechanism, which regulates the number of hammer blows corresponding to the hours by its collapse. This rake 7o contains a certain number of incisions and, according to FIG. 15, is usually in the idle state in that the locking hook 71, which swings around the pin 72, holds it. As with the known chime or chime mechanisms in clocks, the pawl 71 will lift out of the rake a little earlier before the bell is rung. the should, and the rake 70, going in guides 73 and 74, then falls onto a lever 75 (Fig. 16). Then the wheel 67 starts moving slowly and first actuates the hammer 65, then after a certain time the hammer 66: If the latter z. B. has hit the switch 2o, the so-called scoop 76 rotated by the hammer mechanism lifts the rake 7o by one tooth with each stroke until the rake 70 returns to the rest position. At this moment, the striking mechanism trigger 64 holds the wheel 67 firmly.

You can see that the number of repetitions of the ringing by the Number of teeth is determined by which you have raised the computing lock. The Hebe175 can by hand around its axis 77 and along the Teiluni; R - rotated «So that he regulates the case of the locking mechanism and thus determines how often the bell rings «- should earth.

Claims (7)

PATEN TA \ SPRt CHE: i. Device for ringing bells with the aid of an electric drive, in which the motor gives the bell alternately a drive in one and the other direction, characterized in that the distances (FG) within which the bell (2) experiences these drives, limited by two fixed points (F and G) which are symmetrical to the rest position (D) of the bell (2) and are selected so that the bell (2) only receives a movement drive after the first oscillation when it has almost reached its top speed. 2. Device for ringing bells with the help Electric drive according to claim i, for ringing several bells, characterized in that that the motion drives that one of the bells (2) receives also have an @ divider ltetätihen, which regulates the access of electricity to the devices that the others Bells are supposed to give their drive for movement, so (let these drives for movement in in an order and at time intervals that match that of the first bell (2) Drives. 3. Device for ringing bells with the help of electrical Drive according to claim i or 2, wherein each bell is driven by a motor which is switched on by a switch that: on the one hand by a @ device is switched. controlled by the drives given to the bell is, characterized in that this switch (..), the z. B. atis one between consists of two fixed contact carriers (io, ii) oscillating central contact carrier (5), is connected to your control organ that z. B. from one on the wheel (i) of the bell arranged Mitnehiner. (3), so that rler changeover switch is closed when the bell is between the two fixed points (F and G). -1. contraption for ringing bells, finite electric drive according to Ansi) rtlc11 1 and 2, characterized by (let the given by one of the different bells Drive operated distributors from breakers (d.1, .1r1, .12) b ° - is, their number is the same as that of the other bells, and each of which is connected to a circuit is, in which the toggle switch (.13 bz «-. 44) is located, which determines the duration of one of the Bells to be issued drive regulates. 5. Device rum ringing bells with Electric drive aid according to claim 1, 3 and d., Characterized in that for the purpose of driving a changeover switch (d.) for a bell and a breaker (4,: 111) for another bell by taking the same (3) with the breaker (41, d.11) consists of two individual parts (: 11 and: 111), each of which has an oscillating and contain a solid contact carrier in such an arrangement, (let each of these Individual parts are only influenced by the take-away (3) in terms of its movement can be. 6. Device for ringing bells with the help of an electric drive according to claim 1, 3 to: 1 for a number of bells amounting to more than three, characterized in that the control members (3, 31) by an auxiliary wheel (50) carried by the wheel (i) of the bell with the help of a push rod (52) a rotary movement is given with sliding guide (53). 7. Device for ringing from Glock; T: with the aid of an electric drive according to claims i to 6, characterized. (let the end and the opening of the operating current, which is via the main switch (20) the changeover switch (s) (.1 or .13. 4 4 and .15) of the bell ringing flows through, is regulated by a clockwork (6o), which is similar to that of clocks with e: ektrischein Impact mechanism in the usual way by means of a disc with setting pins in: impact mechanism for controlling the main switch (2o) is activated. B. Device for Ringing of Glocl: cn with the aid of an electric drive according to Claims 1 to 7, characterized marked. (leave the percussion mechanism, which, by the way, is known per se easily jumping anchor is provided, one after the other on two switching hammers (65 and 661 acts, one of which closes the main switch (20) and the other opens it after a certain time.