CN220627396U - Multidirectional-adjustment musical instrument frame - Google Patents

Abstract

The utility model discloses a multi-direction adjusting musical instrument frame, which is characterized in that the width adjusting direction of the musical instrument frame is defined as the X direction, the thickness adjusting direction is defined as the Y direction, and the height adjusting direction is defined as the Z direction; the musical instrument frame comprises a Y-direction bottom support, a Z-direction adjusting component, an X-direction downward adjusting beam, an X-direction upward adjusting beam, a Y-direction top beam and a musical instrument spectrum bracket; the Z-direction adjusting component, the X-direction adjusting beam and the X-direction adjusting beam are all telescopic sleeve structures; the upper part of the Y-direction bottom support is fixedly connected with a Z-direction adjusting assembly along the Z direction, the lower part interval of the Z-direction adjusting assembly is connected with an X-direction downward adjusting beam, and the top end of the Z-direction adjusting assembly is fixedly connected with a Y-direction top beam along the Y direction; the interval adjustment between the Y-direction top beams is connected with an X-direction upward adjustment beam, and two ends of the Y-direction top beams are connected with a musical instrument support along the interval adjustment of the Y-direction; the X-up adjusting beam is clamped and positioned on the music score bracket. The support can realize the three-axis position adjustment of the X direction, the Y direction and the Z direction of the support of the body, is convenient to detach and store, has a simple structure and is easy to realize.

Description

Multidirectional-adjustment musical instrument frame

Technical Field

The utility model relates to the technical field of musical instrument supports, in particular to a multidirectional-adjustment musical instrument support.

Background

The support is lifted for the level in the musical instrument performance process and is lifted, especially "horizontal long organ" such as electronic organ, dulcimer, zither need regard as fixed stay with the support during playing, and current support that is applicable to supporting "horizontal long organ" often is fixed knot and constructs, and it is inconvenient to dismantle on the one hand accomodates, and on the other hand the optimal support height, width and the location thickness of playing of different musical instrument types are different, are difficult to carry out the location support after the triaxial adjustment by the support among the prior art.

The following related patents were found by public search:

CN108903256a discloses a multifunctional music rack, which comprises a music score board, an electronic organ rack and a telescopic fixing rack; two bottom supporting tubes are arranged on the rack body and are connected through a telescopic fixing frame; the upper ends of the bottom supporting pipes are embedded and provided with top supporting pipes; one side of the top supporting tube is also connected through a telescopic fixing frame; the other side of the top supporting tube is provided with an electronic organ placing rack through a rotating seat; the bottom side walls of the bottom supporting pipes are symmetrically provided with bottom supporting frames through rotating shaft seats; the top side of the top supporting tube at one side is embedded and provided with a music score board supporting frame; the music book placing plate is arranged on the top side of the music book plate supporting frame. The multifunctional music placing rack is provided with the lengthened underframe and the fixed underframe which are in triangular structural design, so that the use strength of the lengthened underframe and the fixed underframe is enhanced, and the triangular structure is the most stable structure.

In the above-mentioned patent disclosure, although the folding and containing functions are more convenient, the width adjustment direction (i.e. the X direction) is adjusted and rigid, and the hinging points (i.e. the degrees of freedom) of the telescopic fixing frame are too many, which is very easy to cause the relative swinging of the support rods at the two ends of the width adjustment direction in the thickness direction, and further cause the instability of the support of the body; and it also does not have the function of positioning and adjusting the body in the thickness direction. Thus, it is analyzed that the present utility model is structurally and functionally different from the present application.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the multi-direction adjusting musical instrument frame which can realize the three-axis position adjustment of the X direction, the Y direction and the Z direction of the musical instrument body support, is convenient to detach and store, has a simple structure and is easy to realize.

A multi-direction adjusting musical instrument frame, which defines the width adjusting direction of the musical instrument frame as X direction, the thickness adjusting direction as Y direction and the height adjusting direction as Z direction; the musical instrument frame comprises a Y-direction bottom support, a Z-direction adjusting component, an X-direction downward adjusting beam, an X-direction upward adjusting beam, a Y-direction top beam and a musical instrument spectrum bracket; the Z-direction adjusting component, the X-direction adjusting beam and the X-direction adjusting beam are all telescopic sleeve structures; the upper part of the Y-direction bottom support is fixedly connected with a Z-direction adjusting assembly along the Z direction, the lower part interval of the Z-direction adjusting assembly is connected with an X-direction downward adjusting beam, and the top end of the Z-direction adjusting assembly is fixedly connected with a Y-direction top beam along the Y direction; the interval adjustment between the Y-direction top beams is connected with an X-direction upward adjustment beam, and two ends of the Y-direction top beams are connected with a musical instrument support along the interval adjustment of the Y-direction; the X-up adjusting beam is clamped and positioned on the music score bracket.

And the Z-direction adjusting component is a telescopic vertical rod, the bottom end of the telescopic vertical rod is horizontally fixedly connected with a Y-direction bottom bracket, and the top end of the telescopic vertical rod is horizontally fixedly connected with a Y-direction top beam.

Moreover, the support comprises an angle support and a sleeve support; the corner support organ support is buckled and fixed at the connecting corner of the telescopic upright rod and the Y-direction top beam; the sleeve organ support is axially sleeved on the Y-direction top beam in a sliding way.

The Z-direction adjusting component comprises a telescopic inclined supporting rod and a fixed inclined supporting rod, wherein the telescopic inclined supporting rod is obliquely and fixedly arranged on the top surface of the Y-direction bottom support; the telescopic movable end of the telescopic inclined strut is fixedly connected to the bottom surface of the Y-direction top beam; the top of the fixed diagonal brace is fixedly supported on the middle section of the telescopic diagonal brace.

The Y-direction top beam is channel steel with an upward opening, and two ends of the Y-direction top beam are connected with the musical instrument support in a sliding manner; the musical instrument support comprises a sliding block and a rubber clamping block, wherein the sliding block is connected in a Y-direction top beam in a sliding guiding manner, and the top of the sliding block is compositely bonded with the rubber clamping block.

The music score bracket comprises a C-shaped bracket and a push rod, wherein the C-shaped bracket is buckled and connected to the Y-direction top beam, and the bottom of the C-shaped bracket penetrates through the C-shaped bracket along the vertical direction and is in threaded connection with the push rod; the top end of the ejector rod is matched with the ejector rod to be propped on the bottom surface of the Y-direction top beam.

The utility model has the advantages and technical effects that:

according to the multi-direction adjusting musical instrument frame, the supporting width of the musical instrument frame is adjusted through the X downward adjusting beam and the X upward adjusting beam; the support height of the piano frame is adjusted through the Z-direction adjusting component; finally, the thickness of the support of the piano frame is adjusted through the piano support which is connected with the Y-direction top beam in a sliding way, so that the triaxial adjusting function of the support of the piano frame is realized. In addition, the Y-direction collet is used as a fixed support (chassis support) of the integral musical instrument frame to avoid the falling of the musical instrument frame; the Y-direction top beam is used as a sliding guide component of the support, is matched with the support and clamps and fixes the body.

Drawings

Fig. 1 is a front view (embodiment 1) of the present utility model;

FIG. 2 is a side view of the utility model (example 1);

fig. 3 is a front view (embodiment 2) of the present utility model;

FIG. 4 is a side view of the present utility model (example 2);

FIG. 5 is a partial cross-sectional view of the Y-direction header of example 2 of the present utility model;

FIG. 6 is a side view of a music score bracket of the present utility model;

in the figure: 1-X upward adjustment beams; 2-musical instrument spectrum bracket; 3-Y direction top beams; 4-telescopic vertical rods; 5-X adjusting the beam downwards; 6-Y direction bottom support; 7-supporting the organ support at an angle; 8-sleeve organ support; 9-a musical instrument support; 10-telescoping diagonal braces; 11-fixing diagonal braces; 12-a slider; 13-rubber clamping blocks; 14-C type rack; 15-ejector rod.

Detailed Description

For a further understanding of the nature, features, and efficacy of the present utility model, the following examples are set forth to illustrate, but are not limited to, the utility model. The present embodiments are to be considered as illustrative and not restrictive, and the scope of the utility model is not to be limited thereto.

A multi-direction adjusting musical instrument frame, which defines the width adjusting direction of the musical instrument frame as X direction, the thickness adjusting direction as Y direction and the height adjusting direction as Z direction; the musical instrument frame comprises a Y-direction base 6, a Z-direction adjusting component, an X-direction downward adjusting beam 5, an X-direction upward adjusting beam 1, a Y-direction top beam 3 and a musical instrument spectrum bracket 2; the Z-direction adjusting component, the X-direction adjusting beam and the X-direction adjusting beam are all telescopic sleeve structures; the upper part of the Y-direction bottom support is fixedly connected with a Z-direction adjusting assembly along the Z direction, the lower part interval of the Z-direction adjusting assembly is connected with an X-direction downward adjusting beam, and the top end of the Z-direction adjusting assembly is fixedly connected with a Y-direction top beam along the Y direction; the interval adjustment between the Y-direction top beams is connected with an X-direction upward adjustment beam, and two ends of the Y-direction top beams are connected with a musical instrument support 9 along the interval adjustment of the Y-direction; the X-up adjusting beam is clamped and positioned on the music score bracket.

And the Z-direction adjusting component is a telescopic vertical rod, the bottom end of the telescopic vertical rod 4 is horizontally fixedly connected with a Y-direction bottom bracket, and the top end of the telescopic vertical rod is horizontally fixedly connected with a Y-direction top beam.

Moreover, the tray includes an angle support tray 7 and a sleeve tray 8; the corner support organ support is buckled and fixed at the connecting corner of the telescopic upright rod and the Y-direction top beam; the sleeve organ support is axially sleeved on the Y-direction top beam in a sliding way.

The Z-direction adjusting component comprises a telescopic inclined stay bar 10 and a fixed inclined stay bar 11 which are obliquely and fixedly arranged on the top surface of the Y-direction bottom bracket; the telescopic movable end of the telescopic inclined strut is fixedly connected to the bottom surface of the Y-direction top beam; the top of the fixed diagonal brace is fixedly supported on the middle section of the telescopic diagonal brace.

The Y-direction top beam is channel steel with an upward opening, and two ends of the Y-direction top beam are connected with the musical instrument support in a sliding manner; the support comprises a slide block 12 and a rubber clamping block 13, wherein the slide block is connected in a Y-direction top beam in a sliding guiding manner, and the top of the slide block is compositely bonded with the rubber clamping block.

The music score bracket comprises a C-shaped bracket 14 and a push rod 15, wherein the C-shaped bracket is buckled on the Y-direction top beam, and the bottom of the C-shaped bracket penetrates through the C-shaped bracket along the vertical direction and is in threaded connection with the push rod; the top end of the ejector rod is matched with the ejector rod to be propped on the bottom surface of the Y-direction top beam.

In addition, the Z-direction adjusting component, the X-direction adjusting beam and the X-direction adjusting beam are of telescopic sleeve structures, mature products in the prior art are adopted, and the telescopic fixing mode of the Z-direction adjusting component, the X-direction adjusting beam and the X-direction adjusting beam adopts mature technical means in the prior art, such as positioning connection modes of bolt positioning pin jack fixing and the like.

In addition, the sleeve organ support, the sliding block and the Y-direction top beam are preferably positioned and locked by adopting a mature technical means in the prior art, and the sleeve organ support, the sliding block and the Y-direction top beam are also positioned and connected by fixing bolt positioning pin insertion holes and the like.

In order to more clearly illustrate the embodiments of the present utility model, the following provides an example:

according to the multi-direction adjusting musical instrument frame, under the folding and containing posture, the Z-direction adjusting assembly, the X-direction adjusting beam and the telescopic sleeve structure of the X-direction adjusting beam can be pulled out and separated, so that the disassembling and containing volume of the whole musical instrument frame is reduced. In addition, when the body is positioned, the supporting height of the body is adjusted through the Z-direction adjusting component, the supporting width of the body is adjusted through the X-direction downward adjusting beam and the X-direction upward adjusting beam, and the supporting thickness of the body is adjusted through the Y-direction top beam and the support which is connected to the Y-direction top beam in a sliding manner, so that the three-axis adjustment of the body positioning is realized; finally, the music score bracket is used for adjusting and positioning the music score on the X-direction adjusting beam, the ejector rod is required to be manually screwed in the positioning process, and the ejector rod penetrates and is in threaded connection with the bottom of the C-shaped frame.

Finally, the utility model adopts the mature products and the mature technical means in the prior art.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (6)

1. A multi-direction adjusting musical instrument frame, which defines the width adjusting direction of the musical instrument frame as X direction, the thickness adjusting direction as Y direction and the height adjusting direction as Z direction; the method is characterized in that: the musical instrument support comprises a Y-direction base, a Z-direction adjusting component, an X-direction downward adjusting beam, an X-direction upward adjusting beam, a Y-direction top beam and a musical instrument spectrum bracket; the Z-direction adjusting assembly, the X-direction adjusting beam and the X-direction adjusting beam are all telescopic sleeve structures; the upper part of the Y-direction bottom support is fixedly connected with a Z-direction adjusting assembly along the Z direction, the lower part of the Z-direction adjusting assembly is in interval adjustment connection with an X-direction downward adjusting beam, and the top end of the Z-direction adjusting assembly is fixedly connected with a Y-direction top beam along the Y direction; the interval adjustment between the Y-direction top beams is connected with an X-direction upward adjustment beam, and two ends of the Y-direction top beams are connected with a musical instrument support along the interval adjustment of the Y-direction; and the X-shaped upward adjusting beam is clamped and positioned on the positioning connecting music score bracket.

2. A multi-directionally adjustable bridge as claimed in claim 1, wherein: the Z-direction adjusting component is a telescopic vertical rod, the bottom end of the telescopic vertical rod is horizontally fixedly connected with a Y-direction bottom support, and the top end of the telescopic vertical rod is horizontally fixedly connected with a Y-direction top beam.

3. A multi-directionally adjustable bridge as claimed in claim 2, wherein: the organ support comprises an angle support organ support and a sleeve organ support; the corner support organ support is buckled and fixedly arranged at the connecting corner of the telescopic upright rod and the Y-direction top beam; the sleeve organ support is axially sleeved on the Y-direction top beam in a sliding manner.

4. A multi-directionally adjustable bridge as claimed in claim 1, wherein: the Z-direction adjusting component comprises a telescopic inclined supporting rod and a fixed inclined supporting rod which are obliquely and fixedly arranged on the top surface of the Y-direction bottom support; the telescopic movable end of the telescopic inclined strut is fixedly connected to the bottom surface of the Y-direction top beam; the top of the fixed diagonal brace is fixedly supported on the middle section of the telescopic diagonal brace.

5. The multi-directionally adjustable bridge of claim 4, wherein: the Y-direction top beam is a channel steel with an upward opening, and two ends of the Y-direction top beam are connected with the musical instrument support in a sliding manner; the musical instrument support comprises a sliding block and a rubber clamping block, wherein the sliding block is connected in a Y-direction top beam in a sliding guiding manner, and the top of the sliding block is compositely bonded with the rubber clamping block.

6. A multi-directionally adjustable bridge as claimed in claim 1, wherein: the music score bracket comprises a C-shaped bracket and a push rod, wherein the C-shaped bracket is buckled and connected to the Y-direction top beam, and the bottom of the C-shaped bracket penetrates through the C-shaped bracket along the vertical direction and is in threaded connection with the push rod; the top end of the ejector rod is matched with the ejector rod to be supported on the bottom surface of the Y-direction top beam.