CN210579100U - Angle-adjustable microphone fixing structure - Google Patents

Abstract

An angle-adjustable microphone fixing structure comprises at least one microphone bracket and a microphone, wherein the microphone bracket is formed by combining a rotating shaft seat and a single bracket, the rotating shaft seat is arranged at one end of the single bracket, a rotating shaft is arranged on the rotating shaft seat in a protruding mode towards the side edge, and the rotating shaft is provided with an external thread; the microphone is provided with a rotating shaft hole corresponding to the rotating shaft seat, a damping piece is arranged on the outer side of the rotating shaft hole, a rotating shaft nut is arranged in the rotating shaft hole, and the rotating shaft nut is provided with internal threads; when the rotating shaft passes through the rotating shaft hole and is rotatably screwed in the rotating shaft nut, the damping piece on the outer side of the rotating shaft hole is clamped by the rotating shaft seat and the rotating shaft hole.

Description

Angle-adjustable microphone fixing structure

Technical Field

The utility model relates to a sound system, especially a microphone fixed knot construct.

Background

The microphone is a common device used in scenes such as stages, KTV entertainment, meetings and the like. The microphone is generally fixed by means of a support, and the microphone can be used in an angle-adjustable manner on the support.

However, when the angle of the existing microphone is adjusted on the bracket, the existing microphone is often blocked, so that the rotation is not smooth; or the clamping effect is not good, and the microphone after the angle adjustment slips and cannot be fixed, so that the use feeling is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an angle adjustable's microphone fixed knot that easily angle of adjustment and when fixed is comparatively stable constructs.

In order to achieve the above object, the solution of the present invention is: an angle-adjustable microphone fixing structure comprises at least one microphone bracket and a microphone, wherein the microphone bracket is formed by combining a rotating shaft seat and a single bracket, the rotating shaft seat is arranged at one end of the single bracket, a rotating shaft is arranged on the rotating shaft seat in a protruding mode towards the side edge, and the rotating shaft is provided with an external thread; the microphone is provided with a rotating shaft hole corresponding to the rotating shaft seat, a damping piece is arranged on the outer side of the rotating shaft hole, a rotating shaft nut is arranged in the rotating shaft hole, and the rotating shaft nut is provided with internal threads; when the rotating shaft passes through the rotating shaft hole and is rotatably screwed in the rotating shaft nut, the damping piece on the outer side of the rotating shaft hole is clamped by the rotating shaft seat and the rotating shaft hole.

Furthermore, two microphone brackets are arranged; the two sides of the microphone are respectively provided with a rotating shaft hole, the outer sides of the two rotating shaft holes are respectively provided with a damping piece, a rotating shaft nut is respectively arranged in the two rotating shaft holes, each microphone bracket is respectively inserted into one rotating shaft hole by the rotating shaft on the microphone bracket and can be rotatably screwed with the corresponding rotating shaft nut, and meanwhile, the corresponding damping piece is clamped by the rotating shaft seat and the rotating shaft hole.

Further, the damping piece is circular ring-shaped and is arranged around the outer wall of the rotating shaft hole.

Furthermore, the outer side of the rotating shaft hole is provided with a damping piece accommodating groove, the shape of the damping piece accommodating groove is consistent with that of the damping piece, and when the rotating shaft seat and the rotating shaft hole clamp the damping piece, the damping piece is just arranged in the damping piece accommodating groove and partially protrudes out of the damping piece accommodating groove.

Further, the damping piece accommodating groove is an annular groove surrounding the outer side of the rotating shaft hole.

Further, the damping piece accommodating groove is an annular step edge surrounding the outer side of the rotating shaft hole.

Furthermore, an arc-shaped limiting groove is formed in the outer side of the rotating shaft hole, a limiting column is fixedly arranged on the rotating shaft seat of the microphone bracket corresponding to the arc-shaped limiting groove in the direction towards the arc-shaped limiting groove, and when the rotating shaft penetrates through the rotating shaft hole and is rotatably screwed into the rotating shaft nut, the limiting column is inserted into the limiting groove; when the rotating shaft rotates, the limiting column moves in the arc-shaped limiting groove.

Furthermore, the position of the microphone, which is provided with a rotating shaft hole, is designed to be a counter bore, the rotating shaft hole is positioned at the bottom of the counter bore, and when the rotating shaft penetrates through the rotating shaft hole and is rotatably screwed in the rotating shaft nut, the rotating shaft seat is partially sleeved in the counter bore.

Furthermore, the abutting part of the outer wall of the microphone and the single support is designed to be in a plane or inner arc surface shape, so that excessive friction between the outer wall of the microphone and the inner side of the single support when the microphone rotates is avoided.

Furthermore, the rotating shaft seat and the single support are all hollow conducting structures, and the circuit of the microphone is wired from the inside of the rotating shaft, the rotating shaft seat and the single support.

After adopting above-mentioned scheme, the user feels better when rotating the microphone, and the centre gripping of microphone is effectual when stall, and this product neither skids easily nor ends easily, and product simple structure, long service life has better trade prospect.

Drawings

Fig. 1 is an exploded schematic view of an embodiment of the present invention;

fig. 2 is a schematic cross-sectional view of an embodiment of the invention;

fig. 3 is a schematic structural diagram of a microphone according to an embodiment of the present invention;

fig. 4 is a schematic view of an assembly structure according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Example (b):

as shown in fig. 1 to 4, an angle-adjustable microphone fixing structure includes two sets of microphone brackets 1, the microphone bracket 1 is formed by combining a rotating shaft base 11 and a single bracket 12, the rotating shaft base 11 is arranged at one end of the single bracket 12, a rotating shaft 13 is arranged on the rotating shaft base 11 in a protruding manner towards the side edge, and the rotating shaft 13 is provided with an external thread 131;

the two sides of the microphone 2 are respectively provided with a counter bore 3, the bottom of the counter bore 3 is provided with a rotating shaft hole 14, the outer sides of the two rotating shaft holes 14 are both provided with an annular step edge 17 surrounding the rotating shaft hole 14, the annular step edge 17 is a damping part accommodating groove, and an annular damping part 15 is arranged in the annular step edge 17 and partially protrudes out of the annular step edge; two rotating shaft holes 14 are internally provided with a rotating shaft nut 16 respectively, each group of microphone supports 1 is inserted into a rotating shaft hole 14 by using a rotating shaft 13 on each group of microphone supports and can be rotatably screwed with the corresponding rotating shaft nut 16, meanwhile, the rotating shaft seat 11 and the rotating shaft hole 14 clamp the annular damping piece 15 in the annular step edge 17, and the rotating shaft seat 11 is partially sleeved in the counter bore 3, so that the rotating shaft seat 11 and the counter bore 3 are in integrated transition, a better pivoting visual effect is presented, the internal structure is not easy to expose, and the microphone supports are neat and beautiful;

an arc-shaped limiting groove 18 is further formed in the outer side of the rotating shaft hole 14, a limiting column 19 is fixedly arranged in the direction, facing the arc-shaped limiting groove 18, of the rotating shaft seat 11 of the microphone bracket 1 corresponding to the arc-shaped limiting groove, and when the rotating shaft 13 penetrates through the rotating shaft hole 14 and is rotatably screwed in the rotating shaft nut 16, the limiting column 19 is inserted into the limiting groove; when the rotating shaft 13 rotates, the limiting column 19 moves in the arc-shaped limiting groove 18.

The abutting part of the outer wall of the microphone 2 and the single bracket 12 is designed to be in a plane or an inner arc shape, so that excessive friction between the outer wall of the microphone 2 and the single bracket 12 is avoided when the microphone 2 rotates, and the microphone 2 and the single bracket 12 can be matched compactly.

The rotating shaft 13, the rotating shaft seat 11 and the single support 12 are all hollow conducting structures, the circuit of the microphone 2 is wired from the inside of the rotating shaft 13, the rotating shaft seat 11 and the single support 12, the circuit is neat due to the structural design, and the product looks neat and attractive.

In actual use, when the user rotates the microphone 2, the clamped annular damping member 15 generates damping friction force between the rotating shaft seat 11 and the rotating shaft hole 14 in real time to prevent the rotating shaft seat 11 and the rotating shaft hole 14 from rotating mutually, and when the rotation stops, the damping friction force enables the microphone 2 to be fixed at the current position, so that effective real-time positioning effect is achieved. The existence of the damping friction force enables a user to have corresponding counter-force effect when rotating the microphone, so that the rotating process has certain thickness feeling, the hand feeling is good when rotating, and the rotating amplitude is not easy to be overlarge; in addition, the damping piece is made of elastic materials, can be repeatedly used and is not easy to damage, and the service life of the product is prolonged. The arrangement of the arc-shaped limiting groove 18 and the limiting column 19 can ensure that the microphone 2 rotates within a preset range, and the rotatable radian of the microphone can be adjusted according to actual use scenes.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. The utility model provides an angularly adjustable microphone fixed knot constructs, includes at least one microphone support and microphone, its characterized in that: the microphone bracket is formed by combining a rotating shaft seat and a single bracket, the rotating shaft seat is arranged at one end of the single bracket, a rotating shaft is arranged on the rotating shaft seat in a protruding mode towards the side edge, and the rotating shaft is provided with external threads; the microphone is provided with a rotating shaft hole corresponding to the rotating shaft seat, a damping piece is arranged on the outer side of the rotating shaft hole, a rotating shaft nut is arranged in the rotating shaft hole, and the rotating shaft nut is provided with internal threads; when the rotating shaft passes through the rotating shaft hole and is rotatably screwed in the rotating shaft nut, the damping piece on the outer side of the rotating shaft hole is clamped by the rotating shaft seat and the rotating shaft hole.

2. An angularly adjustable microphone fixture structure as claimed in claim 1, wherein: two microphone brackets are arranged; the two sides of the microphone are respectively provided with a rotating shaft hole, the outer sides of the two rotating shaft holes are respectively provided with a damping piece, a rotating shaft nut is respectively arranged in the two rotating shaft holes, each microphone bracket is respectively inserted into one rotating shaft hole by the rotating shaft on the microphone bracket and can be rotatably screwed with the corresponding rotating shaft nut, and meanwhile, the corresponding damping piece is clamped by the rotating shaft seat and the rotating shaft hole.

3. An angularly adjustable microphone fixing structure as claimed in claim 1 or 2, wherein: the damping piece is circular ring-shaped and is arranged around the outer wall of the rotating shaft hole.

4. An angularly adjustable microphone fixture structure as claimed in claim 1, wherein: the damping piece accommodating groove is formed in the outer side of the rotating shaft hole, the shape of the damping piece accommodating groove is consistent with that of the damping piece, and when the damping piece is clamped by the rotating shaft seat and the rotating shaft hole, the damping piece is just arranged in the damping piece accommodating groove and partially protrudes out of the damping piece accommodating groove.

5. An angularly adjustable microphone fixture structure as claimed in claim 4, wherein: the damping piece accommodating groove is an annular groove around the outer side of the rotating shaft hole.

6. An angularly adjustable microphone fixture structure as claimed in claim 4, wherein: the damping piece accommodating groove is an annular step edge surrounding the outer side of the rotating shaft hole.

7. An angularly adjustable microphone fixture structure as claimed in claim 1, wherein: an arc-shaped limiting groove is formed in the outer side of the rotating shaft hole, a limiting column is fixedly arranged on the rotating shaft seat of the microphone bracket corresponding to the arc-shaped limiting groove in the direction towards the arc-shaped limiting groove, and when the rotating shaft penetrates through the rotating shaft hole and is rotatably screwed in the rotating shaft nut, the limiting column is inserted into the limiting groove; when the rotating shaft rotates, the limiting column moves in the arc-shaped limiting groove.

8. An angularly adjustable microphone fixture structure as claimed in claim 1, wherein: the microphone is characterized in that a position of the microphone, which is provided with a rotating shaft hole, is designed to be a counter bore, the rotating shaft hole is positioned at the bottom of the counter bore, and when a rotating shaft penetrates through the rotating shaft hole and is rotatably screwed in a rotating shaft nut, a rotating shaft seat is partially sleeved in the counter bore.

9. An angularly adjustable microphone fixture structure as claimed in claim 1, wherein: the abutting part of the outer wall of the microphone and the single support is designed to be in a plane or inner arc surface shape, so that excessive friction between the outer wall of the microphone and the inner side of the single support when the microphone rotates is avoided.

10. An angularly adjustable microphone fixture structure as claimed in claim 1, wherein: the rotating shaft, the rotating shaft seat and the single support are all of hollow conducting structures, and the circuit of the microphone is wired from the inside of the rotating shaft, the rotating shaft seat and the single support.

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