DE2052367A1 - Bell-ringing machine - Google Patents

Description

G L O C K E N LÄ U T E M A S C H I N E Today known, mechanical Controlled bell ringing machines either drive the bell until it has reached the set vibration level and remains switched off as long as until it falls below this again, where there are strong irregularities in the vibration level, or they drive the bell only during each of an oscillation section (of e.g. 20 degrees), whereby the size of this Sohwingungsausschnittes determines the resulting vibration level, but with the disadvantage that a relatively long time is required to achieve the desired level of oscillation to reach.

The goal of the bell ringing machine according to the invention is to avoid it the disadvantages of the advantages of the bell ringing machines known today unite, namely the bell with the smallest possible motor as quickly as possible on the to bring the desired level of oscillation, the level of oscillation reached very precisely to hold, to be easily adjustable, possibly oine electric motor-driven braking the bell instead of a mechanical one and the like.

In order to achieve this objective, it is inventive and novel provided the bell ringer itself depending on the achieved To let the bell roll in at the level of oscillation, in such a way that to Boginn until a certain (as close as possible to the desired vibration level) is reached located) vibration height of the bell of the engine within the scope of the go-level possibilities bed possible, i.e. it is used undiminished to drive the bell, and that only then with increasing exceedance of this oscillation height e the reduction of the Antriebielstung takes place in that the oscillation section, during which the motor emits drive power, a constant reduction in angular degrees until it becomes so small when the desired Schwingungshöho is reached is that the drive power is just enough for the bell in this vibration level to keep.

There are several ways of realizing the idea of the invention: some of which will now be shown. 1. Example The one that determines the pulse duration Control disk of the bell ringer is designed as a 1> opple cam disk, which have frictional engagement with each other due to resilient pressure. Now exceed the Vibration height of the bell is the amount above which the drive power of the motor is to be reduced, the adjustable "half" of the double cam disk runs at Here and there Swinging the bell against a set one at a time Stop on and is not adjustable by overcoming the frictional connection opposite dor "Half" of the double cam disk adjusted, whereby the angular pulse duration of the motor is shortened. This double cam disk may vary depending on the reduction gear used between motor and double cam disk as rotating, swinging back and forth or straight back and forth moving control disk of suitable shape and design or dergloichon.

2nd example: The basic concept is as in example 1, but is the double cam disk does not move proportionally to the bell deflection, sondorn with a larger Glockonaussohlag progressive, so disproportionately. Dios with cathedral purpose, the amount of vibration above which to reduce the drive power of the motor is to bring much closer to the final vibration height and so the process to accelerate the ringing up, since the full drive power is longer of the engine can be available.

Dor required non-proportional drive for the double cam disc can be done in different ways t By worm drive with different Incline, through epicycloid rolling gear with e.g. ellipsoidal gears Flange gear with crank drive on the planetary gear, through cam-controlled gears, through articulated gears with crank drives and the like.

Since towards the end of the deflection of the bell there is an enlarged angle in terms of angle Path of the double cam disk (due to the reduced reduction ratio) results in the reduction of the oscillation angle that brings drive power is faster in front of you.

3. Example 1 The basic concept is as in Example 1, however the adjustment stops for the adjustable "half" of the double cam disk as well driven in such a way that the relative speed between the attacks and the double cam is greater than the speed of the double cam itself. Here, too, this has the effect that the amount of vibration height above dosson reducing the drive power of the motor is much closer to that the desired end swing height can be brought up, since in the event of a stop the Reduction of the vibration angle of the bell that brings drive power through opposite Example 1 in advance increased adjustment dor imaginable "half" of the Doppelnookenßoholbe goes faster in terms of angle.

The "half" of the double cam disk is not necessarily one half protruded, there may also be a moving part on this spoiler disk @.

She likes the control of the motor by means of electrical switches, scanners odor the like (also in cooperation with other Stouorscheibon).

Claims (1)

P A T E N T A N S P R U C H Bell ringing machine, characterized in that the duration of the drive pulse it by mechanical means during each swinging back and forth of the bell Precautions on the part of the control mechanics depending on the vibration level the bell is shortened with increasing vibration height of the bell and with decreasing The swing height of the bell is lengthened again, with the drive pulse in addition may serve to ring the bell, to keep it high or to slow it down.