INSTRUMENT SUPPORT

Abstract

An instrument support for a guitar including a bridge for resting on a leg of a person, the bridge lying in an x-z plane, wherein at the opposite ends of the bridge with respect to a direction x a first holder and a second holder are respectively provided for receiving the guitar, the first holder having a first holding member and a second holding member for holding the guitar, the holding members each having a nominal bearing surface with a normal, against which it is intended to bear the guitar, the first member being alignable in such a way that its normal is aligned along the y-direction, the second member being alignable in such a way that its normal is aligned along the z-direction, wherein in that the second member is aligned in such a way that its normal is aligned along the z-direction.

Claims

1. An instrument support for a guitar, comprising: a bridge for resting on a leg of a person, the bridge lying in an x-z plane, wherein at the opposite ends of the bridge with respect to a direction x, a first holder and a second holder are each provided for receiving the guitar, the first holder having a first holding member and a second holding member for holding the guitar, the holding members each having a nominal bearing surface with a normal, against which it is intended to bear the guitar, the first holding member being alignable in such a way that its normal is aligned along the y-direction, wherein the second holding member is alignable in such a way that its normal is aligned along the z direction.

2. The instrument support according to claim 1, wherein the normals of the nominal contact surfaces of the first and second holding member can be aligned at right angles to one another.

3. The instrument support according to claim 1, wherein the first holder has a swivel joint with a swivel axis along the z-axis, it being possible to swivel the first holding member by means of the swivel joint.

4. The instrument support according to claim 1, wherein the first holder has a telescopic element by means of which the first and/or the second holding member can be retracted and/or extended translationally with respect to the bridge.

5. The instrument support according to claim 1, wherein the second holder has a third holding member, the third holding member having a nominal bearing surface with a normal, the third holding member being alignable in such a way that its normal is aligned along the y-direction.

6. The instrument support according to claim 1, wherein the second holder has a pivot bearing with a pivot axis along the z-axis, the third holding member being pivotable by means of the pivot bearing.

7. The instrument support according to claim 1, wherein the first and/or the second and/or the third holding member is designed as a suction cup.

8. The instrument support according to claim 1, wherein the normal of the first and/or of the third holding member encloses an angle α of 10° to 20° with the y-axis, preferably in that the normal can be pivoted in a plane along the x-y plane.

9. The instrument support according to claim 1, wherein the normal of the second holding member encloses an angle α of 10° to 20° with the z-axis, in particular in that the normal can be pivoted in a plane along the y-z plane.

10. The instrument support according to claim 1, wherein the pivot axis of the pivot joint and/or the pivot axis of the pivot bearing encloses an angle α of 10°-20° with the z-axis.

11. The instrument support according to claim 1, wherein the bridge is concavely curved in the x-direction.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0018] Further advantages and details of the invention are explained in the patent claims and in the description and are shown in the figures. It shows:

[0019] FIG. 1 shows an instrument support looking against the y-direction;

[0020] FIG. 2 shows an instrument support looking against the z-direction;

[0021] FIG. 3 shows a first end of the instrument support looking in the x-direction;

[0022] FIG. 4 shows a second end of the instrument support looking in the x-direction.

[0023] The figures show an embodiment of an instrument support 1.

DETAILED DESCRIPTION OF THE INVENTION

[0024] According to FIG. 1, the instrument support 1 has a bridge 2 that lies in the x-z plane, as illustrated by the coordinate system on the right edge of FIG. 1. The bridge 2 is placed with its concave bottom side on the leg of a person when playing a guitar. The bridge 2 has two ends 2.1, 2.2, which delimit the longitudinal sides, and extends from the first end 2.1 in the x-direction longitudinally to the second end 2.2. A first holder 3 is attached to the first end 2.1 and a second holder 4 is attached to the second end 2.2.

[0025] The first holder 3 extends upwards along the y-direction. A first holding member 3.1 is provided on the holder. The first holding member 3.1 has a nominal contact surface 3.12 with a normal 3.11. The normal 3.11 points along the y-direction. In this case, the normal 3.11 is inclined by approx. 15° relative to the y-direction. The nominal contact surface 3.12 is the surface that supports the guitar during playing in such a way that the guitar can be positioned as intended. In this case, the frame of the guitar rests completely on the nominal contact surface 3.12.

[0026] In addition, a second holding member 3.2 is attached to the first holder 3. The second holding member 3.2 is provided above the first holding member 3.1 in the y-direction. In addition, the second holding member 3.2 is offset in the z-direction. Furthermore, the second holding member 3.2 is arranged laterally off-set in the x-direction relative to the first holding member 3.1. In this way, a space is created in which the guitar or part of the body of the guitar is placed when played. The second holding member 3.2 has a nominal contact surface 3.22 with a normal 3.21 that is aligned along the z-direction. The direction of the normal 3.21 is oriented opposite to the z-direction. In this case, the normal 3.21 is inclined by about 15° relative to the z-direction. The nominal contact surface 3.22 of the second holding member 3.2 is used for contact against a guitar back. The normals 3.11, 3.21 of the first and second holding members 3.1, 3.2 are arranged at right angles to one another, as shown in particular in FIG. 3a, since the frame and back of a guitar are also aligned per se at right angles to one another.

[0027] The second holder 4 also extends upwards along the y-direction. A third holding member 4.1 is attached to the second holder 4. It also has a nominal contact surface 4.12 with a normal 4.11. The normal 4.11 points along the y-direction. In this case, the normal 4.11 is inclined by approx. 15° relative to the y-direction. It is intended that the nominal contact surface 4.12 of the third holding member 4.1, like that of the first holding member 3.1, rests against the guitar frame. Accordingly, the normals 3.11, 4.11 of the first holding member 3.1 and the third holding member 4.1 are aligned parallel to each other in the illustration. This also applies to the nominal contact surfaces 3.12, 4.12, whereby, for the purpose of adapting to the curve shape of the frame, different swivel angles with reference to the respective swivel axis 3.31 and swivel axis 4.21 are possible. The first and third holding members 3.1, 4.1 are arranged at the same height in relation to the z-direction.

[0028] The holding members 3.1, 3.2, 4.1 are designed as suction cups. As such, they each fix the guitar in all three spatial directions so that the guitar is also completely fixed with regard to tilting the guitar relative to the instrument support 1.

[0029] According to FIG. 2, the first holder 3 has a telescopic element 3.4 with a first telescopic rail 3.42 and a second telescopic rail 3.43. The telescopic rails 3.42, 3.43 can be moved relative to each other. In this way, the first and second holding members 3.1, 3.2 can be moved in and out translationally with respect to the bridge 2 along the y-axis. The distance between the first and second holding members 3.1, 3.2 and the bridge 2 is in this respect adjustable and the posture of the guitar, in particular the orientation of the guitar neck, can be adapted to the preferences of the person. The telescopic rails 3.42, 3.43 can be locked with respect to each other by means of a locking means 3.41. The locking device 3.41 is a combination of screw and wing nut. The locking means 3.41 also serves as a swivel bearing 4.2 between the two telescopic slides 3.42, 3.43 with a swivel axis 3.44.

[0030] The first telescopic rail 3.42 is attached to the bridge 2. The second telescopic rail 3.43 is fastened to the first telescopic rail 3.42 via the locking means 3.41. The second telescopic rail 3.43 has a swivel joint 3.3. A swivel joint 3.3 is provided at the upper tip of the second telescopic rail 3.43. The swivel joint 3.3 has a swivel axis 3.31 which runs along the z-axis. The first holding member 3.1 is seated on the swivel joint 3.3 and can be swiveled so that it can be adapted to a curved course of a guitar frame. A leg 3.5 is also attached to the second telescopic rail 3.42, to the upper tip of which the second holding member 3.2 is attached. The holder 3 and in particular the telescopic element 3.4 with the first telescopic rail 3.42 enclose an angle β of approximately 10° with the y-axis.

[0031] The second holder 4 has a base 4.3 which is attached to the bridge 2. A swivel bearing 4.2 with a swivel axis 4.21 is attached to the base 4.3, to which the third holding member 4.1 is attached. The swivel axis 4.21 runs along the z-axis so that the third holding member 4.1 can also be swiveled. The third holding member 4.1 can therefore also be adapted to a curved frame. The swivel axes 3.31, 4.21 of the swivel joint 3.3 and the swivel bearing 4.2 are parallel to each other.

[0032] The bridge 2 runs in a concave curve in the x-direction and is curved upwards in the y-direction so that it is ergonomically adapted to the shape of the leg or upper leg. In this case, the x-axis is curved so that the bridge 2 comes to rest in the x-z plane formed in this way. Otherwise, it is an ordinary Cartesian coordinate system as shown, to which, apart from the curvature, no further changes have been made.

[0033] FIG. 3a shows the first end 2.1 of the bridge 2. At this end 2.1, the first holder 3 with the first and second holding members 3.1, 3.2 is provided. The normal 3.11 of the first holding member 3.1 encloses an angle α of 15° with the y-axis. The telescopic element 3.4 encloses an angle δ with the bridge 2, with δ=90°−α. The normal 3.21 of the second holding member 3.2 encloses the same angle α with the z axis. The normal 3.11 of the first retaining element 3.1 is pivoted via the pivot joint 3.3 in a plane parallel to the x-y plane. As discussed earlier, these normals 3.11, 3.21 are perpendicular. The swivel axis 3.31 of the swivel joint 3.3 likewise includes the angle α of 15° with the z-axis. The swivel axis 3.31 lies in a plane parallel to the y-z plane. It is parallel to the normal 3.21 of the second holding member 3.2.

[0034] According to FIG. 3b, the normal 4.11 of the third holding member 4.1 also includes the angle α of approximately 15° with the y-axis. The normal 4.11 is also swiveled by means of the swivel bearing 4.2 into a plane parallel to the y-z plane. The normal 4.11 is parallel to the normal 3.11 of the first holding member 3.1. The swivel axis 4.21 of the swivel bearing 4.2 also includes the angle α with the z-axis. The swivel axes 3.31, 4.21 of the swivel joint 3.3 and the swivel bearing 4.2 are parallel. The swivel axis 4.21 lies in a plane parallel to the y-z plane and is parallel to the normal 3.21 of the second holding member 3.2.

REFERENCE LIST

[0035] 1 instrument support [0036] 2 bridge [0037] 2.1 first end, long side [0038] 2.2 second end, long side [0039] 3 first holder [0040] 3.1 first holding member [0041] 3.11 normal [0042] 3.12 nominal bearing surface [0043] 3.2 second holding member [0044] 3.21 normal [0045] 3.22 nominal bearing surface [0046] 3.3 swivel joint [0047] 3.31 swivel axis [0048] 3.4 telescopic element [0049] 3.41 locking means [0050] 3.42 first telescopic rail [0051] 3.43 second erste Teleskopschiene [0052] 3.44 swivel axis [0053] 3.5 leg [0054] 4 second holder [0055] 4.1 third holding element [0056] 4.11 normal [0057] 4.12 nominal bearing surface [0058] 4.2 pivot bearing [0059] 4.21 pivot axis [0060] 4.3 base