BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 shows a perspective view of an inventive musical instrument stand in a fully open and stable position, ready for receipt of a musical instrument.
FIG. 2 shows a perspective view of the inventive musical instrument stand of FIG. 1 in a fully closed position, with a pair of leg portions disposed within a pair of support portions.
FIG. 3 shows a side elevation view of the inventive musical instrument stand of FIG. 1 in a partially open position showing the leg portions partially extracted from the support portions.
FIG. 4 shows a side elevation view of the inventive musical instrument stand of FIG. 1 in a fully open position showing the leg portions fully extracted from the support portions.
FIG. 5 shows a back elevation view of the inventive musical instrument stand of FIG. 1 in a fully open position showing the leg portions fully extended for receipt of the musical instrument.
FIG. 6 shows a partial cut-away back elevation view of the inventive musical instrument stand of FIG. 1 showing a position stop that limits the extent that the pair of support portions may be opened or closed.
FIG. 7 shows a flowchart of a method of assembling the inventive musical instrument stand of FIG. 1.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
Before explaining the present invention in detail, it is important to understand that the invention is not limited in its application to the details of the construction illustrated, or by the steps of construction inherently present by way of illustration of the appended drawings. The invention is capable of other embodiments and of being practiced or carried out in a variety of ways. It is to be understood that the phraseology and terminology employed herein is for the purpose of description to enhance an understanding by those skilled in the art and does not impose limitation on the present invention.
Additional information concerning the presently preferred embodiments of the present invention can be found in the attached sheets of drawings and accompanying text thereon.
Referring now to the drawings, and in particular to an example of a preferred embodiment of the present inventive musical instrument stand 100 as shown in FIG. 1. In a preferred embodiment, the inventive musical instrument stand 100 includes a base portion 102 pivotally attached to a support portion 104 by a pair of pivot restraints 106. The base portion 102 preferably includes a first leg 108 and a second leg 110, and the support portion 104 preferably includes a first arm 112 and a second arm 114.
Preferably, the first arm 112 and the second arm 114 each include at least a baffled matrix support structure 116, which establishes a predetermined configuration of each respective arm, and defines an inner wall of the leg retention channel 118. The first and second arms 112, 114 each include an interlocking hinge portion 120 that, with the inclusion of a first hinge pin 122, interacts with one another to form a retention portion 124, also referred to herein as hinge 124. When the first and second arms 112, 114 are merged together, a hinge pin aperture 136 is formed for receipt of the first hinge pin 122.
As described in greater detail during the discussion of FIG. 6 below, the first arm 112 and the second arm 114 collaborate to form a position stop 126, which limits the extent to which the support portion 104 can be placed in a fully open position, or a fully closed position.
FIG. 1 further shows the preferred embodiment of the present inventive musical support stand 100 includes an over center latch assembly 128. The over center latch assembly 128 preferably includes a first latch member 130 secured to a second latch member 132 by a latch pin 134. When the over center latch assembly 128 is depressed, i.e., placed in a locked position, the first leg 108 and the second leg 110 are securely held at a predetermined distance from one another to provide stability to the inventive musical instrument stand 100 in preparation for receipt of the musical instrument, such as an electric guitar.
Preferably, the second latch member 132 is configured to accommodate the nesting of the first latch member 130 within the second latch member 132 when the support portion 104 is in a fully closed position, and the legs 108 and 110 are disposed within the leg retention channel 118 (as shown by FIG. 2). To accommodate the over center latch assembly 128, when the support portion 104 is in a fully closed position, each leg 108 and 110 preferably provides a latch reception channel 138, which accommodates the nesting of the over center latch assembly 128 within the support portion 104, when the support portion 104 is in a fully closed position, i.e., the legs 108 and 110 are disposed within the leg retention channel 118.
The first leg 108 and the second leg 110 each include at least a second baffled matrix support structure 140, which support respective external leg shells 142 (only one shown). Similarly, the baffled matrix support structures 116 of the arms 108 and 110 support respective external arm shells 144 (only one shown).
As can be seen by FIG. 2, each external arm shell 144 (only one shown) provides a pivot aperture 146 configured for the receipt of the pivot restraint 106 (of FIG. 1). Furthermore, FIG. 2 shows the external leg shells 142 and the external arm shells 144 preferably each provide concave surfaces and edges that are contoured. Preferably, the musical instrument stand is formed from a polymer such as polycarbonate, and is available in a range of colors. It is noted however, the use of polycarbonate as material for constructing the inventive musical instrument stand does not impose any limitations on the present invention. Those skilled in the art understand a range of materials may be used in place of polycarbonate to achieve substantially the same advantages and characteristics inherent with the use of polycarbonate. Among those materials are: carbon fiber composites, fiberglass composites, coated metals, and even wood.
In the preferred embodiment, the use of a polycarbonate material, in conjunction with the concave surfaces and contoured edges of the respective external arm shells 144 and external leg shells 142 present an external surface specifically configured for the minimization of marring and scratches on instruments supported by the inventive musical instrument stand 100. It has further been found that the inventive musical stand 100 may be conveniently carried within an instrument carrying case without imparting scratches or a mars onto the instrument contained within the case.
FIG. 2 further shows the inventive musical instrument stand 100 includes a detent 148 provided by a detent recess 150 of each leg 108, 110 (of FIG. 1), and a second hinge 152. The second hinge 152 is formed from second interlocking hinge portions 154 provided by each arm 112 and 114, and a second hinge pin (not separately shown) securing the interlocking hinge portions 154 together. Adjacent the hinge 124, the position stop 126 includes a first stop feature 156 provided by the first arm 112, and the second stop feature 158 provided by the second arm 114. Each stop feature 156, 158 provides a closed position projection 160, which interact with one another to establish a predetermined configuration of the support portion 104, when the support portion 104 is in the closed position. Each stop feature 156, 158 further provides an open position surface 162, which interact with one another to establish a predetermined configuration of the support portion 104, when the support portion 104 is in the open position.
The detent 148 provided by each leg 108, 110 communicate with their respective arms 112, 114, when the legs 108, 110 are placed into a retracted position (as shown by FIG. 4) to inhibit return of the arms 112, 114 to a closed position as shown by FIG. 2. In a preferred embodiment, each leg 108, 110 provides a finger grasp indent 164, and each arm 112, 114 provides a corresponding finger grasp indent 166. In combination, the finger grasp indents 164 and 166 form a grasp region 168 for the inventive musical instrument stand 100, which allows users to easily open the musical instrument stand 100 in preparation for its use.
FIG. 3 shows the legs 108, 110 of the base portion 102 each include an instrument saddle portion 170 and a foot support portion 172. The saddle portions 170 of the respective legs 108 and 110 constitute the portion of the legs 108 and 110 disposed within the leg retention channel 118 (of FIG. 1) when the inventive musical instrument stand 100 is in a fully closed position as shown by FIG. 2.
FIG. 4 shows each saddle portion 170 is configured to cradle an instrument supported by the legs 108, 110, and includes an instrument grip feature 174 formed from a skid resistant, elastomeric material. Preferably, the grip feature 174 inhibits inadvertent movement of the musical instrument cradle by the saddle portion 170. In a preferred embodiment, the grip feature 174 includes a serrated surface 176 that, when communicating with a musical instrument supported by the inventive musical instrument stand 100, improves retention of a musical instrument supported by the saddle portion 170. The foot support portion 172, a first foot 178, and a second foot 180 protrude from the lower surface of each of the legs 108, 110. In a preferred embodiment, the first foot 178 and the second foot 180 are formed from a skid resistant, elastomeric material of substantially the same composition as the grip feature 174.
In addition to the grip feature 174, the first foot 178 and the second foot 180 provided by the foot support portion 172, each arm 112, 114 provides an instrument back retention feature 182. Preferably, each retention feature 182 is formed from substantially disabled skid resistant, elastomeric material used in forming the first foot 178, the second foot 180, and the grip feature 174, which may be selected from a range of polymers that include at least, but are not limited to neoprene®, butyl rubber, natural or synthetic latex, and polyurethane.
FIG. 5 shows the second hinge 152 formed from the second interlocking hinge portions 154 provided by each arm 112 and 114, and a second hinge pin 184 securing the interlocking hinge portions 154 together. As depicted by FIG. 5, the legs 108 and 110 are positioned relative to each other and a maximum extent allowed by the over center latch assembly 128 (of FIG. 1), when the over center latch assembly 128 is in a locked configuration. When the over center latch assembly 128 is in the locked configuration, the open position surfaces 162 of the position stop 126 are adjacent one another, but not in contact with each other.
FIG. 6 shows the closed position projections 160 of the stop feature 156, 158 in non-contact with one another, and the open position surfaces 162 of the stop feature 156, 158 is in contact with one another. The open position surfaces 162 are provided as a safety precaution that prevents a musical instrument supported by the inventive musical instrument stand 100 from being dislodged from the inventive musical instrument stand 100, if the over center latch assembly 128 were to fail. In other words, if the over center latch assembly 128 were broken, lost, or dysfunctional, the inventive musical instrument stand 100 would continue to support an instrument placed within its instrument saddle support portions 170 (see FIG. 4), and preclude the instrument from being unintentionally dislodged from the inventive musical instrument stand 100.
Flowchart 200 of FIG. 7 shows method steps of a process of making an inventive musical instrument stand (such as 100). The process commences at start process step 202 and continues at process step 204. At process step 204, a first arm (such as 112) of a support portion (such as 104) is provided. In a preferred embodiment, the first arm includes a first interlocking hinge portion (such as 120). At process step 206, a second arm (such as 114) of the support portion is provided with a second interlocking hinge portion (such as 120).
The process continues at process step 208, with the merging of the first and second interlocking hinge portions to form a retention portion (such as 124). Merging of the first and second interlocking hinge portions assures that a first stop feature (such as 156) of the first arm and a second stop feature (such as 158) of the second arm interact to form a position stop (such as 126) of the support portion. At process step 210, a hinge pin (such as 122) is inserted into a hinge pin aperture (such as 136) formed by the merged first and second interlocking hinge portions. With the hinge pin in place, a first hinge, i.e., the retention portion 124 is formed. At process step 212, a first leg (such as 110) is secured to the first arm with a first of two pivot restraints (such as 106), and at process step 214, a second leg (such as 110) is secured to the second arm with the second pivot restraint.
At process step 216, a first latch member (such as 130) is linked to a second latch member (such as 132) with a latch pin (such as 134) to form an over center latch assembly (such as 128). At process step 218, the first latch member is snapped into rotational communication with the first leg, and at process step 220, the second latch member is snapped into rotational communication with the second leg. At process step 222, the over center latch is depressed to secure the first and second legs in an instrument support position, and the process concludes at end process step 224.
While preferred embodiments of the present invention are directed to a stand suitable for use in supporting a stringed instrument such as a guitar, it will be appreciated that the disclosed subject matter is not necessarily so limited. Rather, the support can be sized and configured for use in any number of applications and environments, including but not limited to use as an easel for a presentation, a book holder, a support for any number of different types of substrates (e.g., drywall), etc.
Patent Application
20080028912
