DE2007093A1 - Electromechanical device for operating the register loops of a pipe organ - Google Patents

Description

Designation electromechanical device for operating the register loops a pipe organ, r designation according to the attached schematic sketch: "Loop tension element for pipe organ "State of the art 1. Operation of the loops by mechanical means Draw register.

2. Actuation of the register loops by suitably strong electromagnets in an electromechanical way.

3. Actuation by individual electric motors, in which the armature shaft is designed as a threaded spindle and has a spindle nut for the Loop drive is used.

These motors run in both directions as needed.

Advantage The presented invention enables the register of a Pipe organ with very little effort and relatively low currents also eus larger Distance to operate or control with simple means.

Functional description The two presented loop tension elements have only one motor in common for all registers with worm, gear, belt or priority gear, the output shaft of which makes approx. 60 revolutions per minute; also a continuous main shaft A, which depending on the register switch position one or more Loop pull elements for 1800 each (equal full loop path in one direction) drives.

In sketch 1 a new system is shown, the way of which works like will be described below.

A direct current source is used to supply power to all loop tension elements, which is put into operation when the organ (fan, etc.) is switched on.

This loop tension element essentially consists of a backdrop 1 with the two working slots 2 and 3, this backdrop 1 is stored between 2 metal or plastic washers 4 and 5 t which are firmly connected to the main shaft A. are.

The core 6 serves as the guide for the backdrop 1. The disc 4 carries laterally near the leril) herie a Llektromagneten 7 whose pin 8 in the switched on State of the electromagnet 7 jumps into one of the two working slots and the backdrop 1 drives, two slip rings 9 are used to transmit power to the solenoid of electromagnet 7. The E.ulisse 1 stands on one side with a fi for the loop adjustable linkage 10 in connection. Furthermore, the backdrop 1 has two pins 11 and 12 that control the contact spring sets 13 and 14. the register switch 15 is used to set the desired register position.

In the present sketch 1, the gate 1 is in the drawn end position. The shaft A rotates evenly with approx.

60 revs Älin. The pin 8 jumps due to the separation of the circuit through pin 11 and contact spring set 14 back. The shaft A continues to rotate and the backdrop 1 remains in the position shown. Now becomes the register switch 15 brought into the other position 16, this is the opened contact spring set 14 bridged, the electromagnet 7 receives power, the pin 8 jumps out, engages into the working slot 3 and leads the link 1 back until the pin 12 interrupts the current circuit again via the contact spring set 13.

Whether the backdrop 1 is pushed in or pulled out is a result from the position of the register switch 15, from which it can be seen whether a register is on or off.

Sketch 2 shows a loop tension element, which is essentially from an internally toothed steel or plastic backdrop 17 best @@ Jie for the Forward and reverse run via an armature lever 18 and two held in the middle position Electromagnet 19 and 20 is switched. This system is also one when it is switched on Organ moves steadily - with approx. 60 rev./I.in. - rotating main shaft B for the drive of all loop pulling elements. This main shaft B also has only one motor Driven by worm gear or other gear. To drive the gate 17 A metal or plastic gearwheel 21, which is firmly connected to the shaft B, is used is. The two sets of contact springs 22 and 23 in conjunction with the two on the Link 17 fastened pins 24 and 25 result in a limitation by interruption of the circuit in both directions. The linkage 26 can be used for the required Set the loop path.

In the drawn position of the register switch 27 and 28 received the coil of the electromagnet 19 Stron, because the switch 28 of the open contact spring set 22 was bridged.

The electromagnet 19 attracts the armature lever 18 and brings the gear 21 with the upper rack 29 in engagement. The backdrop 17 is now so far pushed in the direction of arrow 30 until the pin 24 over the contact spring set 23 the Circuit again separates and the gate 17 by the two tension springs 31 and 32 jumps back to the middle position. The gear wheel rotates in the middle position free.

Claims (10)

Expectations 1. Loop pulling element, characterized in that all of them are used to drive Register loops of an organ only 1 motor is used. 2. loop tension element according to claim 1, characterized in that a worm, gear, belt or friction gear to reduce the speed of the motor having. 3. loop tension element according to claim 1 and 2, characterized in that that the output shaft of the motor gearbox with a length required Loop tension elements corresponding main shaft is connected. 4. loop tension element according to claim 1 to 3, characterized in that that, as shown in sketch 1, the backdrop made of metal or plastic 1 has 2 working slots 2 and 3 into which a pin 8 can engage. 5. loop tension element according to claim 1 to 4, characterized in that that the backdrop 1 between 2 disks 4 and 5 and the core 6 is performed. 6. loop tension element according to claim 1 to 5, characterized in that that the gate 1 to limit the end position corresponding electr. Has elements. 7. loop tension element according to claim 1 to 6, characterized in that that the backdrop 1 and 17 is movably connected to a linkage 10 and 26, that can be adjusted to the required loop path. 8. loop tension element according to claim 1 to 3 and 5 to 7 thereby characterized in that the link 17, sketch 2, two internal gears in connection having with a gear. 9. loop tension element according to claim 1 to 3 and 5 to 8 thereby characterized in that the link 17 is controlled by a lever 18 of 2 electromagnets will. 10. loop tension element according to claim 1 to 9, characterized in that that on a main shaft, depending on the number of register loops, such loop pulling elements are lined up. Blank page