The invention relates to field of electromagnet actuators, particularly to those used in pipe organs.
Pipe organs can be very large instruments with thousands of pipes. Usually, each organ pipe is equipped with a pallet which closes and opens the pipe to the passage of air therethrough. When the pallet is opened, the air flow can enter the pipe and as a result a sound is produced. The pallet is opened when the organist presses the corresponding key on the organ keyboard.
Modern pipe organs use electromagnets to open a pallet when the corresponding key is pressed: pressing a key sends a current to the solenoid of the electromagnet that pulls open a moveable armature of the electromagnet. Since the armature is connected to the pallet, moving the armature causes the pallet to open. In order to control the assembly of the electromagnets that actuate the numerous pallets, an electric control system is also a part of the organ as a whole. Because of the numerous pallets an organ can have, current control systems can be however quite cumbersome.
Current electromagnet systems used for controlling the closing and opening of pallets function according to an ON/OFF principle, i.e. the pallet is either opened or closed. Pipe organs containing such electromagnet systems are therefore insensitive to the subtlety and intensity of an organist's touch to the keys.
In one of its aspects, the present invention provides an electromagnet actuator that presents a mechanical structure that is stable and, at the same time, compact enough such that many of these electromagnets can be stacked to control hundreds of pipes. The present invention also provides for a system to control these electromagnet actuators such that each of these electromagnet actuators can provide an opening of a pallet that is proportional to the key dip of the corresponding key that was pressed by the organist. The present invention also provides an efficient and simple control system based on a digital serial link.
The invention provides an actuator for actuating a pallet of an organ pipe under the command of a key of an organ. The actuator comprises a movable member adapted to be connected to the pallet of the organ pipe; a magnetic plunger, mounted on the movable member; an electromagnet having a gap defined therein for receiving the magnetic plunger when energized, the gap comprising a space between a magnetic north pole and a magnetic south pole of the electromagnet formed when the electromagnet is energized; and a controller unit to control a current in the electromagnet to provide a controlled actuation of the pallet, proportional to a key dip of the key. When the electromagnet is energized with the current, a magnetic field is created between the magnetic north pole and the magnetic south pole of the electromagnet, exerting a force over the magnetic plunger and thereby moving the member to actuate the pallet of the organ pipe.
Advantageously, the electromagnet and the magnetic plunger of the actuator have similar cross-sections, to provide for a low reluctance magnetic circuit, the magnetic circuit being created when the electromagnet is energized.
Advantageously, the movable member comprises an arm pivotally mounted on the electromagnet and comprises low permeable material such as to be substantially external to the magnetic circuit.
Advantageously, the actuator further comprises a controller unit to control a current in the electromagnet to provide a controlled actuation of the pallet.
The invention further provides a controllable actuator for actuating a pallet of an organ pipe under the command of a key of an organ. The actuator comprises a movable member having a magnetic plunger and an electromagnet having a gap within which the magnetic plunger can be inserted and moved. The electromagnet further has a core comprising at least two parallel portions, and at least two coils respectively wound around the parallel portion, whereby each coils produces partial magnetic field which are added to contribute to a total magnetic field of the electromagnet and thereby control the movement of the magnetic plunger and hence of the member, wherein the electromagnet when energized moves the member to thereby actuate the pallet of the organ pipe.
The invention further provides a system for controlling an assembly of pallets in an organ, wherein each pallet is actuated by an electromagnet actuator and corresponds to a key of the organ. The system comprises a plurality of key dip measurement units for measuring for each of the keys a dip as a function of time and for providing a plurality of digital key dip statuses. It also comprises a plurality of controllers, wherein each controller is connected to one of the electromagnet actuators. It also comprises a communication unit for receiving the digital key dip statuses and relaying each of the statuses to the corresponding controller via a serial link, wherein the controllers control the electromagnet actuators upon receiving the digital key statuses to thereby provide for each pipe an opening proportional to the corresponding key dip.
In order that the invention may be readily understood, embodiments of the invention are illustrated by way of example in the accompanying drawings.
Further details of the invention and its advantages will be apparent from the detailed description included below.
In the following description of the embodiments, references to the accompanying drawings are by way of illustration of an example by which the invention may be practiced. It will be understood that other embodiments may be made without departing from the scope of the invention disclosed.
While
In an alternative embodiment, for example, the magnetic core 20 can lack the symmetrical geometry of the core 20 illustrated in
One of these configurations is shown in
In this particular embodiment, since the arm 24 does not have to be made out of a permeable material, as it is not part of the magnetic circuit of the electromagnet 14, a polymer material may be used for the arm 24. That provides a very light arm 24, easier to pivot than a metallic arm, such as those that can be found in prior art systems.
A PCB plate 32 can also be seen on the top of the actuator 10 structure, which is just above the arm 24. This PCB plate 32 is equipped with a Hall effect sensor 36 (
Thus, the present invention provides for an electromagnet actuator 10 that can deliver sufficient work to open the pallet pipe and at the same time be compact, thanks to its dual coil geometry and its low reluctance. The present invention provides also for an electromagnet actuator 10 that presents a very stable structure that is less susceptible to deformation created by very high magnetic flux.
Naturally, other electromagnet actuators configurations than the one just described, could be thought of, having an equivalent compact and stable structure and without loosing potential in delivering work. An example of another configuration 10′ having such characteristics is illustrated in
Turning now to
The use of a numerical serial link 69 facilitates the interconnections between the pallets and the control system. It also enables one to remotely program (or reprogram when needed) each controller associated to each organ pipe actuator. Those controllers could also be controlled by another control system via another type of serial link, as someone skilled in the art will know, which open other application possibilities for the above described electromagnet actuator and controller.
Now, with respect to
The digital keyboard card 70 comprises a multiplexer 73 that receives the 32 signals from the Hall effect sensors 71. In an embodiment, the 32:8 multiplexer provides, across 8 channels, the signals to an analog to digital converter 75. Other multiplexer ratios are envisaged. The sampled signals relating to the pressed keys and their position are sent by the microprocessor 77 through a receiver/transmitter unit 79 to a central processing unit (shown as numeral 83 on
With respect to
Although the present invention has been described hereinabove by way of specific embodiments thereof, it can be modified, without departing from the spirit and nature of the subject invention as defined herein. The scope of the invention is therefore intended to be limited solely by the scope of the appended claims.
This application is a continuation, and claims priority under 35 USC §120, of International patent application No. PCT/CA2005/001521 filed Sep. 30, 2005 entitled PROPORTIONAL ELECTROMAGNET ACTUATOR AND CONTROL SYSTEM, which claims priority of U.S. provisional patent application No. 60/614,463 filed Oct. 1, 2004 entitled PROPORTIONAL ELECTROMAGNET ACTUATOR AND CONTROL SYSTEM under 35 USC §119(e), the specifications of which are hereby incorporated by reference.
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Number | Date | Country |
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1046311 | Jan 1979 | CA |
1050792 | Mar 1979 | CA |
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Number | Date | Country | |
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20070171009 A1 | Jul 2007 | US |
Number | Date | Country | |
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60614463 | Oct 2004 | US |
Number | Date | Country | |
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Parent | PCT/CA2005/001521 | Sep 2005 | US |
Child | 11694184 | US |