Patent Grant
9691369
The disclosed invention relates to an adjustable guitar effects pedalboard. More specifically, the disclosed invention relates to a curved pedalboard having an upper level and a lower, telescoping level that enables users to adjust the width of the pedalboard to fit their needs. The upper and the lower levels further contain holes on which users can anchor their guitar pedals.
When playing concerts, musicians often use effects units to alter how a musical instrument sounds. Some units are built into an instrument while others are separate from the instrument. For example, guitar players will often use guitar effects pedals to alter the sound of their electric guitars. While guitar effects pedals provide a musician with additional sounds, they are usually limited to one or two effects. Therefore, guitar players frequently desire access to a plurality of guitar effects pedals during a concert. However, placement of several pedals loose on a performance floor is impractical and can pose risk of damage to, or disconnection of, the various pedals during performance.
To meet the need for convenient use of multiple pedals, a pedalboard is often used. Often times, pedalboards are flat boards to which a user can attach guitar effects pedals through the use of hook and loop fasteners (for example, Velcro). For example, a user can attach the hook side to the pedalboard and the loop side to the guitar effects pedal, or vice versa. This enables a guitar effects pedal to be removed if it is not in use. However, pedals are frequently different sizes, and hook and loop fasteners often leave residue if removed from the pedalboard or guitar effects pedals. Therefore, if a guitar player uses hook and loop fasteners to attach pedals to a pedalboard, it can be difficult to rearrange the layout of pedals.
To overcome this design shortfall, pedalboards have been created that have holes in them. By using a pedalboard with holes, a user can thread a cable tie through two holes and secure the pedal to the pedalboard. Because a cable tie can easily be removed by being cut and because the cable tie will not leave residue on the pedalboard, this type of pedalboard enables a user to easily re-arrange the pedals whenever the user desires. However, one problem that continues to exist is the fixed size of the pedalboard. A guitar player who is a relative novice may want a small pedalboard that holds only a few guitar effects pedals, but may quickly gain skill and desire additional effects pedals. Consequently, the guitar player may need a larger pedalboard. Therefore, that user must purchase another pedalboard. In another example, a user may play different kinds of concerts or different styles of music, wherein several effects pedals are required at some concerts but only a few are required at others. Because of the fixed size of pedalboards, the user must purchase several pedalboards to meet his or her needs. Therefore, a pedalboard is needed that a user can vary in size based on the user's particular performance needs.
The present disclosure relates to an adjustable guitar effects pedalboard having an upper level and a lower, telescoping level. More specifically, the pedalboard can be curved and can have a plurality of holes in the upper level and the lower level to enable a user to attach effects pedals to the pedalboard. The holes in the plurality of pieces of the lower, telescoping level can line up when the lower, telescoping level is in various positions of expansion and contraction.
The present disclosure relates to an adjustable guitar effects pedalboard 100 that is used as a platform to which a user can attach guitar effects pedals. Various embodiments of the pedalboard 100 will be described in detail with reference to the drawings, wherein like reference numerals represent like parts and assemblies throughout the several views. Reference to various embodiments does not limit the scope of the pedalboard 100 disclosed herein. Additionally, any examples set forth in this specification are not intended to be limiting and merely set forth some of the many possible embodiments for the pedalboard 100. It is understood that various omissions and substitutions of equivalents are contemplated as circumstances may suggest or render expedient, but these are intended to cover applications or embodiments without departing from the spirit or scope of the disclosure. Also, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be regarded as limiting.
In general terms, the present disclosure relates to an adjustable guitar effects pedalboard 100 used as a platform to which a user can attach guitar effects pedals. Various embodiments of the pedalboard 100 can include a number of components including, but not limited to, an upper level 102 having a plurality of holes and a substantially flat, top mounting surface; a lower, telescoping level 104 having a plurality of holes and a substantially flat, top mounting surface; and at least one riser 202 to lift and secure the upper level 102 on top of the lower level 104. The pedalboard 100 can be approximately 5½ inches tall from the ground to the top of the pedalboard 100, 17 inches long from the front to the back of the pedalboard 100, and each of the levels can be approximately one half of an inch thick. As described further below, the width of the pedalboard 100 may be variable. Additionally, the pedalboard 100 can be made of aluminum, wood, plastic, or any other metal. For example, the upper level 102 and the lower level 104 may be made of aluminum that is 100 to 125 thousandths thick. The plurality of holes in the upper level 102 and the lower level 104 can be circular, as illustrated in
As illustrated in
Effects pedals do not come in standard sizes and some tend to be much bigger or much smaller than others. When attaching an effects pedal to a pedalboard 100 with holes, it is important for the holes to be located at close locations to, and in various positions around, the effects pedals. The holes on the upper level 102 and lower level 104 are specifically designed for several industry effects pedal types. Additionally, the upper level 102, in some embodiments, can support other guitar accessories attached to the pedalboard 100. Because of the hole pattern disclosed herein, virtually any pedal can be attached securely to the pedalboard 100.
In a preferred embodiment, the upper level 102 is smaller in width and length than the lower level 104 and is located toward the back of the top face, or mounting surface, of the lower level 104, as illustrated in
To attach the upper level 102 to the lower level 104, at least one riser 202 can be used. As mentioned above, in some embodiments, the riser 202 can attach to the bottom of the upper level 102 and the top face of the lower level 104 to provide a user with two levels of pedalboard options. Further, the riser 202 can move with the upper level 102 when a user decides to expand or contract the lower level 104, the process of which is described below in more detail. In some embodiments, the pedalboard 100 contains a plurality of risers 202, wherein one riser 202 is on the left side of the bottom face of the upper level 102 and one is on the right side of the bottom face of the upper level 102, as illustrated in
In a preferred embodiment, the risers 202 lift the upper level 102 high enough off of the lower level 104 to allow effects pedals to fit underneath the upper level 102 on the portion of the lower level 104 situated underneath the upper level 102. The risers 202 can have a uniform height or they can be shorter in the front and taller in the back, as illustrated in
In some embodiments, the main pieces or sections of the lower level 104 can contain feet 204 to hold the pedalboard 100 off of the ground and prevent the pedalboard 100 from slipping on smooth surfaces. Additionally, the extra space beneath the pedalboard 100 can be used to keep the pedalboard 100 stable and flat when cords and cable ties or other securing features are wrapped or routed underneath the pedalboard 100. As illustrated in
In a preferred embodiment, the lower level 104 of the pedalboard 100 is comprised of two components or sections that create the telescoping feature, therefore enabling the width, illustrated along line W-W in
Of the two components, the first component is a first telescoping section 106 having a relatively flat, top face/mounting surface and a relatively flat, bottom face. It can be further comprised of a lip along its front, back, and right side, and a straight edge along its left side. Alternatively, in some embodiments, the first telescoping section 106 has a lip along its front, back, and left side and a straight edge along its right side. The second component is a second telescoping section 108 that can have a relatively flat, top face/mounting surface and a relatively flat, bottom face. It can be further comprised of a front and a back lip that match up to the lip along the front and back of the first telescoping section 106. Therefore, both the first telescoping section 106 and the second telescoping section 108 can include a lip along the front and back, as illustrated in
In another embodiment, the bottom face of the first telescoping section 106 has support tracks attached near and along the front and back of its bottom face. The second telescoping section 108 can fit in the length between the support tracks and slide along the tracks, and the support tracks can keep the second telescoping section 108 positioned appropriately to continue to allow the holes in the two components to line up with each other. Therefore, in this embodiment, the second telescoping section 108 may have a shorter length from front to back than the first telescoping section 106. However, the support tracks may be configured to allow the second telescoping section 108 to retain a similar length from front to back compared to the first telescoping section 106. In an embodiment of the pedalboard 100 having support tracks, the sides of the first telescoping section 106 and the second telescoping section 108 may or may not have lips.
In some embodiments, the lower level 104 can be configured and locked into three positions: a closed position, as illustrated in
Similarly, the upper level 102, in some embodiments, can be separated from the lower level 104, and both levels can be used on their own. Because of this removability, the upper level 102 can also be attached via the risers 202 to various locations along the lower level 104. For example, one embodiment of the disclosed pedalboard 100 can create nine different configurations, wherein the pedalboard 100 has three width options for the lower level 104, as described above, and up to four positions for the upper level 102. More specifically, for the closed configuration of the lower level 104, the upper level 102 can fit into two positions, for the partially-expanded configuration of the lower level 104, the upper level 102 can fit into three positions, and for the fully expanded configuration of the lower level 104, the upper level 102 can fit into four positions.
For example,
As stated above, in a preferred embodiment, the lower level 104 has a telescoping feature that can increase or decrease the surface area to which the user can attach effects pedals by allowing at least two components to move along each other and overlock or interlock. More specifically, the second telescoping section 108 can slide along or into and out of the first telescoping section 106 to decrease and increase the width of the pedalboard 100. Therefore, there are several ways in which the lower level 104 can telescope, examples of which are described below.
In some embodiments, the mechanism by which the lower level 104 adjusts is a ratcheted locking mechanism. For example, the mechanism can be similar to a storm window, wherein the second telescoping section 108 can slide into a specific position, and a latch on the second telescoping section 108 can slide into a notch on the first telescoping section 106. To move the second telescoping section 108 out further or to pull it back in, the user can pull the latch out of the notch and simultaneously move the two pieces further apart or closer together.
In another embodiment, the two pieces may not have notches or latches and may instead slide fluidly across each other. In this embodiment, the first telescoping section 106 and the second telescoping section 108 can be secured in a relative position to each other using screws. For example, as illustrated in
Importantly, regardless of which configuration the lower level 104 takes, at least some of the holes in the first telescoping section 106 can line up with at least some of the holes in the second telescoping section 108. This ensures that the solid areas on the second telescoping section 108 do not block the holes on the first telescoping section 106 and that the solid areas on the first telescoping section 106 do not block the holes on the second telescoping section 108. This alignment occurs even if the pedalboard 100 is curved and expands on an arc.
In addition to the holes used to secure effects pedals to the pedalboard 100, the pedalboard 100 can also contain larger, oblong holes located on the face of the pedalboard 100 to be used as handles 110 or as an easy way to hide straps or cords by enabling a person to thread the straps or cords through the holes and under the pedalboard 100. For example,
In an alternative embodiment, the top faces of the two telescoping components of the pedalboard 100 may, in a closed configuration, line up next to each other instead of overlapping with each other. Therefore, to expand the width of the pedalboard 100, a user can pull the two components away from each other creating space in between them. Within this space, there may be components such as bars, rails, or supports to which a user can directly attach guitar effects pedals. Alternatively, a third component, such as an insert, may fit in the space between the two telescoping components and attach to the bars, rails, or supports. In that case, guitar effects pedals may then attach to the insert.
In some embodiments, the pedalboard 100 can incorporate lights along the top face, bottom face, or any of the front, back, or side edges. The lights can be steady lights or can flash at regular or irregular intervals. In some embodiments, the lights can flash in time to the beat of the song the user is playing.
To carry the pedalboard 100, a matching bag or soft case may be used. The bag can resemble a messenger bag and can be adjustable in size to reflect the size of the user's pedalboard 100. For example, if a user has adjusted the pedalboard 100 to its smallest size, the user will not want the pedalboard 100 shifting around in the bag banging into additional items in the bag. Therefore, the user can shrink the size of the bag to create a snug fit. Alternatively, if the user has adjusted the pedalboard 100 to its biggest size, the user is going to need a bag that is big enough to fit the pedalboard 100 and can, thus, expand the bag to create the necessary space.
The mechanism used to change the size of the bag can, in some embodiments, be comprised of snaps and folding compartments. Therefore, to make the bag smaller, the user can fold a portion of the bag and snap it in place. Alternatively, straps could be used to hold the folded section in place. In another embodiment, the bag will not fold, but will have air pockets. Therefore, if a user needs to make the inside of the bag smaller, the user can put air into the pockets and the pockets will take up the extra space in the bag. If the user needs to make the bag bigger, the user can easily let air out.
Instead of using a bag, the pedalboard 100 may include a hinge in the middle and handles 110 on the outsides. Therefore, when a user needs to transport the pedalboard 100, the user can remove the pedals by releasing the securing mechanism (i.e., cutting the cable ties, rubber bands, twist ties, etc.), can fold up the board along the hinges, and can use the handles 110, which preferably align with each other when the pedalboard 100 is folded, to easily carry the pedalboard 100. In some embodiments, a locking mechanism may be included so the board does not unfold accidentally during transit.
The disclosed application is a continuation in part of U.S. application Ser. No. 29/540,570, filed Oct. 5, 2015, which is titled ADJUSTABLE GUITAR PEDALBOARD, and claims the benefit of U.S. Provisional Application No. 62/248,589, filed on Oct. 30, 2015, which is titled ADJUSTABLE GUITAR EFFECTS PEDALBOARD.
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| Number | Date | Country | |
|---|---|---|---|
| 20170098438 A1 | Apr 2017 | US |
| Number | Date | Country | |
|---|---|---|---|
| 62248589 | Oct 2015 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 29540570 | Oct 2015 | US |
| Child | 15231314 | US |
