U.S. Patent Documents:
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1. Field of the Invention
This invention relates to electronic percussion instruments such as electronic drums that electronically produce sounds simulating the sounds of acoustic drum sets including drums and cymbals.
2. Description of the Related Art
Electronic drums have been in use for several years now, and the technology is fairly straight forward. Put simply, a piezo electronic element generates a small but detectable current when the element is vibrated. These piezo elements are embedded into pads, cymbals or tubes, and the electrical output is routed to signal processors, commonly referred to as drum modules or “brains”. Each piezo signal is assigned a sound by the drummer, through the programming function of the drum module. If a particular pad is assigned a snare drum sound, for example, a sound pattern is artificially generated by the drum module when electrical inputs from the pad are detected, and these sounds are routed out of the module for amplification. Literally hundreds of different sound patterns can be generated, and a typical drum set uses from 5 to 50 sounds, depending upon the sophistication of the drum set.
The high-hat instrument presents unique problems when it comes to generating an artificial sound pattern. The instrument that is simulated has two cymbals, one suspended over the other, as in
As more bass drum notes became desirable in modem music, a second bass drum pedal was introduced, enabling drummers to play bass drum notes with both feet. Unfortunately, this requires drummers to take their foot off of the high-hat instrument, which leaves the upper cymbal suspended above the lower one in acoustic drum sets. To make matters worse, metal high-hat cymbals are generally very thick and produce an unpleasant “clanging” noise when they are struck without contacting their paired lower cymbal. Therefore, removing the foot from the high-hat generally renders the instrument un-playable, and most drummers immediately switch to a ride cymbal even though a high-hat sound is desired.
In
There are a few inventions on the market that attempt to make the acoustic high-hat playable when the foot is removed, and they usually involve a locking device that holds the pedal down when the foot is pulled away. When the locking device is disabled, the hi hat works normally again. The problem is that levers must be manipulated while trying to play the drums in order to lock or unlock a mechanical dutch, and it is sometimes difficult to consistently get the correct pedal pressure. Most drummers simply abandon the high-hat instrument rather than work the clutch mechanism. There are also devices that use light beams to sense when the drummer's foot has left the pedal, and an electromagnetic solenoid is activated to physically move the pedal to a preset position. These devices are expensive and complex, not suitable for most electronic high-hat control pedals, and are rarely used.
Unfortunately, prior art electronic high-hat devices have mimicked the conventional high-hat instrument all too well. When the foot leaves the instrument, this same irritating danging noise is generated by electronic high-hats, and the instrument is generally abandoned when a second bass drum pedal is used.
My invention solves this problem, allowing the drummer that uses an electronic high-hat to continue to generate pleasant closed high-hat sounds when the drummer's foot leaves the high-hat instrument, utilizing a secondary circuit to manually set the sound that the instrument will make. An optional tertiary circuit is introduced, that produces yet another selectable sound when the high-hat cymbal is tilted when struck by the drummer.
An objective of the invention is to allow a drummer playing an electronic high-hat to continue to make pleasant high-hat sounds when the drummer's foot leaves the high-hat pedal.
Another objective is to have a primary circuitry switch that disables the primary pedal actuated positioning circuit when the foot is removed from the high-hat pedal, said primary circuitry switch simultaneously activating a secondary circuit that is energized when the drummer's foot leaves the high-hat pedal.
Yet another objective is to have electronic controls in the secondary circuit that manually vary the current of the high-hat positioning signal that is sent to the drum module.
A further objective is to provide accent notes using an optional tertiary circuit that controls the output to the drum module when the secondary circuit is activated and the high-hat cymbal is tilted after being impacted.
Another objective is to place a control panel within easy reach of the drummer that determines the sound that the high-hat will make when the instrument is struck whenever the foot is removed, with simple manual controls for setting the output of the secondary and tertiary circuits.
A further objective is to have a system that works in every configuration of electronic high-hat instruments.
In accordance with a preferred embodiment of the invention, there is disclosed an electronic high hat circuitry system that utilizes a primary, foot pedal controlled circuit that sends a positioning signal to an electronic drum module, a primary circuitry switch that is activated when the pedal is at or near the top of its travel thereby disabling the primary circuit and simultaneously activating a secondary circuit. This secondary circuit varies the positioning signal to the electronic drum module in a manner similar to the primary circuit with one major difference; the signal is manually set by the drummer through a control panel. An optional tertiary circuit is introduced, which allows the drummer to select a sound that is yet again different from the primary or secondary circuits.
This tertiary circuit is primarily used for accent notes, and it is activated when the secondary circuit is in use and the cymbal is tilted. This tertiary circuit signal is also manually selected by the drummer.
Other objectives and advantages of the present invention will become apparent from the following descriptions, taken in connection with the accompanying drawings, wherein, by way of illustration and example, an embodiment of the present invention is disclosed.
The drawings constitute a part of this specification and include exemplary embodiments to the invention, which may be embodied in various forms. It is to be understood that in some instances various aspects of the invention may be shown exaggerated or enlarged to facilitate an understanding of the invention.
a depicts a high-hat with the pedal depressed.
a depicts a prior-art electronic high-hat control pedal.
b depicts a high-hat pedal with a retrofitted external secondary circuit and a control panel.
c depicts an electronic high-hat pedal with an internal secondary circuit and an external control panel.
a depicts a primary circuitry switch when the pedal is in the at-rest, full up position.
b depicts a primary circuitry switch when the pedal has been depressed.
a depicts a tertiary circuit cymbal platform with the cymbal in the at-rest position.
b depicts a tertiary circuit cymbal platform with the cymbal that has been tilted by the drummer.
c depicts the underside of a tertiary circuit cymbal platform with adjustably positioned cymbal stanchion arms.
a depicts a secondary and tertiary “sizzle” circuitry control panel.
b depicts a control panel with slider control devices
a depicts a generic modern electronic high-hat.
b depicts the base of a generic modern electronic high-hat device with the primary circuitry switch mounted above the pedal.
c depicts details of a generic modem electronic high-hat.
a depicts a primary circuitry switch that is contained within the electronics control box when the foot pedal is depressed.
b depicts a primary circuitry switch that is contained within the electronics control box when the foot pedal is at-rest.
a depicts the circuitry logic of an electronic high-hat circuitry system having primary and secondary control circuits.
b depicts the circuitry logic of an electronic high-hat circuitry system having primary, secondary and tertiary control circuits.
Detailed descriptions of the preferred embodiment are provided herein. It is to be understood, however, that the present invention may be embodied in various forms. Therefore, specific details disclosed herein are not to be interpreted as limiting, but rather as a basis for the claims and as a representative basis for teaching one skilled in the art to employ the present invention in virtually any appropriately detailed system, structure or manner.
There are many different configurations used in electronic high-hat instruments, and my invention works with all of them. In my Figures, I will use common numbering for the parts that serve identical functions, regardless of configuration differences.
These are the basic elements that are always present in my invention (see
The secondary circuit varies the current to the drum module just like the primary positioning circuit with one major difference; the current is varied by means of a control knob, and not the position of the foot pedal. Using this control, the drummer can preselect a sound ranging from a full dosed to a full open high-hat, and when the foot is removed, this is the control signal that will be sent to the drum module. When the foot is again placed on the pedal and pressed down, the switch contact is broken, the secondary circuit is disabled, and the primary positioning circuit controlled by the foot pedal is utilized once again.
a shows a prior-art electronic high-hat control pedal, wherein the foot pedal 109 is part of a pedal assembly that houses and directly controls the primary control circuit.
c shows an electronic high-hat control pedal with a secondary circuit built into the existing electronics bay 18 that forms the base of the pedal. The primary circuitry switch (not shown) is internally mounted, and has the same function as the retrofitted example in
a and 5b show a typical foot pedal primary circuitry switch in use. When the pedal 109 is in the full-up position as in
A favorite trick of all drummers is to raise the high-hat pedal slightly when hitting accent notes, and getting a momentary “sizzle” sound from the high-hat. My invention allows the drummer to control these accent notes, for the first time, when their foot is off of the pedal, utilizing an optional tertiary control circuit. When the cymbal is tilted as in
Note that the tertiary “sizzle” circuit is only armed when the drummer's foot is off of the pedal. When the drummer's foot is on the pedal, the primary circuit pedal position controls the output to the drum module regardless of cymbal tilt. A circuitry logic diagram is presented in
a and 7b show details of the tertiary circuit cymbal platform 20. The cymbal 108 is shown transparently in the drawings, and would include one or more piezo or other electronic triggers which are not shown. There is a central support post 27 that allows the cymbal to pivot at the center, and two fulcrum stanchions 23 mounted on two support arms 22. The central support post 27 could be made out of a flexible material, or the cymbal may have a flexible gimbal at the top. As the cymbal tilts in
Some of today's most advanced electronic high-hats do not have the positioning control circuit housed in the foot pedal as in
a depicts a modified generic modern electronic high-hat with the primary control circuit electronics housed at the top of the high hat stand. The foot pedal 109 is connected to a rod 37 that connects to a device that controls the primary control circuit, in this case, a device that resides in the primary circuit housing 34.
Rod 37 runs all the way through the instrument, and connects with the pedal 109 at the bottom. The cymbal 108 is attached to the rod using a clamp 35. The rod is spring-loaded to the full up position, as in conventional high hats. As the drummer's foot is lowered, this movement is sensed by the primary circuit pressure sensors (not depicted) which reside inside the primary circuit housing 34 and the primary control current is varied.
Some modifications are required in order to play the high hat when the foot is removed, and these modifications are shown in
In
In
An optional cymbal tilt switch 38 has been incorporated into the moving cymbal assembly. This switch transfers control to the tertiary or “sizzle” circuit when the cymbal is tilted, just as in other embodiments. Note that an electrical connection 43 is required between the electronics control box 33 and the switches 38 and 45 that are mounted above it.
a and 10b illustrate an alternative placement of the primary circuitry switch 12 inside of the electronics control box 33. In this case, the primary circuitry switch 12 is activated by a cam 47 that is connected to a rod 37 that is connected to the foot pedal. In
While all electronic drum modules use the same two inputs (pedal position and cymbal triggering) from the electronic high-hat instrument, the actual configuration may vary. My invention works with all of them. This invention ensures that the high-hat is always a pleasant sounding instrument, wherever the drummer's foot happens to be. Note that there is no distracting effort required on the part of the drummer.
As this invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, the present embodiment is therefore illustrative and not restrictive, since the scope of the invention is defined by the appended claims rather than by the description preceding them, and all changes that fall within metes and bounds of the claims, or equivalents of such metes and bounds are therefore intended to be embraced by the claims.