A suspension structure for a microphone
The suspension structure with multiple hanging heads solves the problem of insufficient adaptability of existing microphone suspension structures, achieving rapid adaptation and stable clamping, thus improving operating efficiency and user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG XINGSHENG CULTURE TECH CO LTD
- Filing Date
- 2025-07-25
- Publication Date
- 2026-06-26
AI Technical Summary
The fixed opening size of the hanging head of the existing microphone wall-mounting structure results in insufficient clamping force or failure to snap into place, and the adjustment is cumbersome, making it unable to adapt to the hanging requirements of microphones of different specifications.
Design a suspension structure for multi-specification head hangers. A sliding clamp and locking assembly enable quick adaptation. The head hangers can be rotated and locked, and a snap-on hinge connection facilitates disassembly and adjustment, adapting to the suspension of microphones of different specifications.
It enables quick selection of different suspension spaces, improves operational efficiency, ensures stable clamping, reduces operational steps, and optimizes the user experience and structural layout.
Smart Images

Figure CN224418915U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of microphone technology, and specifically to a suspension structure for a microphone. Background Technology
[0002] Microphone wall-mounted suspension structures typically employ a combination of a fixed plate and C-shaped hooks. One or more horizontally arranged, rigidly connected C-shaped hooks provide basic microphone fixation. While this structure can meet the suspension requirements of standard-sized microphones, it has significant limitations in practical applications: Firstly, because the hook opening size is fixed, there is a risk of the microphone falling off if the microphone handle diameter does not match the groove (too thin and the clamping force will be insufficient, causing it to loosen; too thick and it will not fit completely).
[0003] Secondly, existing technologies require adjustments via knobs or tools, making the process cumbersome and inefficient in scenarios involving rapid equipment changes, such as stage equipment changes. These shortcomings severely limit the adaptability of suspension structures in diverse usage scenarios, especially in professional settings where different microphone sizes need to be accommodated simultaneously. Utility Model Content
[0004] In view of this, the purpose of this utility model is to provide a suspension structure for a microphone, which has multiple specifications of hanging heads, and multiple hanging heads can be quickly slid and selected to adapt to the suspension of microphones of different specifications, so as to solve the technical problems described in the background art.
[0005] This utility model is achieved through the following technical solution:
[0006] A suspension structure for a microphone includes a base plate on which a clamp is slidably mounted. The clamp includes an adjustment head that is snap-fitted together from top to bottom and at least two hanging heads, each of which has a suspension space for holding the microphone, and each suspension space is of a different size.
[0007] The base plate is provided with a locking component, and the hanging head can remain perpendicular to the clamp when locked by the locking component.
[0008] Furthermore, the locking assembly includes a locking hole on the side of the hanging head and a support fixed to the surface of the substrate. The support is provided with a locking element for cooperating with the locking hole to restrict the rotation of the hanging head.
[0009] Furthermore, the support has a receiving cavity on the side facing the hanging head, and the locking member includes a locking pin inserted into the receiving cavity, with a spring installed between the locking pin and the bottom wall of the receiving cavity.
[0010] Furthermore, the locking pin includes a locking head that is inserted into the locking hole and an unlocking rod integrally formed with the locking head. The end of the unlocking rod away from the locking head extends out of the support, and a ring is fixed to the end of the unlocking rod extending out of the support.
[0011] Furthermore, a limiting groove is formed by radially deepening the inner wall of the locking hole, and a limiting block is integrally formed on the locking head for inserting into the limiting groove to restrict the rotation of the hanging head.
[0012] Furthermore, a groove A is formed on the surface of the substrate along its height direction, and the clamping plate is vertically slidably installed in the groove A.
[0013] Furthermore, the surface of the substrate is provided with a slide groove B that communicates with the slide groove A, and a slider is fixed on the adjustment head. The slider is used to slide and cooperate with the slide groove B to limit the movement stroke of the adjustment head.
[0014] The beneficial effects of this utility model are as follows:
[0015] 1. The suspension structure of this utility model features a modularly designed hanging head that allows for sliding and rotating adjustment, enabling quick selection of different hanging space sizes without the need for tools, thus adapting to the hanging requirements of microphones of various specifications. Furthermore, the snap-on hinge connection allows the hanging head to be flexibly unfolded or folded, and the locking component ensures stable clamping while reducing operational steps and improving efficiency.
[0016] 2. The clamping plate of this utility model is modular and adjustable, which facilitates disassembly and layout optimization: The hanging head is connected by a snap-on hinge, which supports overall disassembly and free adjustment of position. Users can rearrange the hanging heads as needed to avoid unnecessary hanging heads being suspended. By pulling out the clamping plate, the required hanging head can be flexibly adjusted to the bottom, optimizing the user experience and reducing structural redundancy. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the suspension structure for the microphone according to this utility model.
[0018] Figure 2 For the present utility model Figure 1 Enlarged view of point A in the middle.
[0019] Figure 3 This is a schematic diagram of the locking component of the microphone suspension structure of this utility model.
[0020] Figure 4 This is a schematic diagram of another usage state of the clamp plate of the microphone suspension structure of this utility model.
[0021] In the diagram: 1-Baseboard, 11-Slide A, 12-Slide B, 2-Clamping plate, 21-Adjusting head, 22-Hanging head, 23-Suspension space, 4-Locking assembly, 41-Locking hole, 42-Support, 43-Locking component, 431-Receiving cavity, 432-Locking pin, 4321-Locking head, 4322-Unlocking rod, 4323-Ring body, 433-Spring, 434-Limiting groove, 435-Limiting block, 5-Slider. Detailed Implementation
[0022] Typical embodiments embodying the features and advantages of this utility model will be specifically described in the following description. It should be understood that this utility model can have various variations in different embodiments, all of which do not depart from the scope of this utility model, and the descriptions and illustrations therein are for illustrative purposes only and not intended to limit this utility model.
[0023] In the description of this application, the terms "upper" and "lower" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the structure referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.
[0024] Please see Figure 1 and Figure 2 This utility model provides a technical solution: a suspension structure for a microphone, including a base plate 1 made of plastic, which is fixed to an object by screws during use. A groove A11 is formed on the surface of the base plate 1 along its height direction, and a clamping plate 2 is slidably installed in the groove A11, so that the entire clamping plate 2 is recessed into the base plate 1 to reduce the overall volume of the suspension structure.
[0025] Please see Figure 1 The clamping plate 2 includes adjustable heads 21 hinged together from top to bottom and at least two hanging heads 22. Each hanging head 22 is C-shaped and made of a plastic material, allowing it to deform and hold a microphone. Each hanging head 22 has a suspension space 23 for holding the microphone, and the size of each suspension space 23 is different, thus allowing for the holding and suspension of microphones of different sizes, ensuring stability when hanging microphones of different sizes. The hanging head 22 has markings (not shown) indicating the size of the suspension space 23 to facilitate the selection of the appropriate hanging head. Specifically, when holding a microphone, the microphone only needs to be pressed into the suspension space 23, and the microphone is held and suspended by the deformation of the hanging head 22.
[0026] In addition, the adjustment head 21 and the hanging head 22, as well as the hanging head 22 and the hanging head 22, can adopt the snap-on hinge connection structure in the prior art. This allows relative rotation between the adjustment head 21 and the hanging head 22, as well as between the hanging head 22 and the hanging head 22. Furthermore, the entire clamping plate 2 is modularly designed, and different hanging heads 22 can be disassembled and replaced individually, thereby adapting to the clamping and suspension requirements of microphones of various sizes.
[0027] Please see Figure 2 The surface of the substrate 1 is also provided with a slide groove B12 that communicates with the slide groove A11. A slider 5 made of flexible material is fixed on the adjusting head 21. The slider 5 is used to slide and cooperate with the slide groove B12 to limit the movement stroke of the adjusting head 21. The clamping plate 2 slides and cooperates with the slide groove A11 to limit the horizontal movement of the clamping plate 2, while the slider 5 slides and cooperates with the slide groove B12 to limit the movement stroke of the adjusting head 21, thereby preventing the clamping plate 2 from sliding up and down and detaching from the substrate 1.
[0028] Please see Figure 1 and Figure 3 The base plate 1 is provided with a locking assembly 4. The locking assembly 4 includes a locking hole 41 opened on the side of the hanging head 22 and a support 42 fixed on the surface of the base plate 1. The support 42 has a receiving cavity 431 on the side facing the hanging head 22. The support 42 is provided with a locking member 43. The locking member 43 includes a locking pin 432 inserted into the receiving cavity 431. A spring 433 is installed between the locking pin 432 and the bottom wall of the receiving cavity 431. Since the clamping plate 2 is vertically slidably inserted into the slide groove A11, when the hanging head 22 is driven to rotate to a horizontal state to clamp the suspended microphone, the hanging head 22 squeezes the locking pin 432, causing the locking pin 432 to retract into the receiving cavity 431. When the hanging head 22 rotates, causing the locking hole 41 to align and coincide with the receiving cavity 431, the locking pin 432 extends into the locking hole 41 under the force generated by the spring 433 deforming back to its original state, thereby restricting the rotation of the hanging head 22 and supporting the hanging head 22. At this time, the hanging head 22 can maintain a stable horizontal state, ensuring that the microphone is securely suspended.
[0029] Please see Figure 3The locking pin 432 includes a locking head 4321 that is inserted into the locking hole 41 and an unlocking rod 4322 integrally formed with the locking head 4321. One end of the unlocking rod 4322 away from the locking head 4321 extends out of the support 42, and a ring 4323 is fixedly provided at the end of the unlocking rod 4322 extending out of the support 42. The ring 4323 facilitates the sliding of the locking pin 432, so that the locking head 4321 disengages from the locking hole 41 and releases the movement restriction of the hanging head 22.
[0030] Please see Figure 3 The inner wall of the locking hole 41 is radially deepened to form a limiting groove 434, and the locking head 4321 is integrally formed with a limiting block 435. When the locking pin 432 is inserted into the locking hole 41, the limiting block 435 and the limiting groove 434 are engaged to further restrict the rotation of the hanging head 22 and ensure the stability of the hanging head 22 when it is unfolded to a horizontal state.
[0031] The usage process of this utility model is as follows: When suspending microphones of different specifications, simply release the locking component 4 from the clamping plate 2. Then, pull the adjusting head 21 to slide along the slide groove A11, so that the corresponding hanging head 22 is close to the locking component 4. Rotate and unfold the required hanging head 22 to a horizontal position, and finally lock the hanging head 22 with the locking component 4. It is worth noting that this operation process is suitable for quickly selecting hanging heads 22 with different sizes of suspension spaces 23 to quickly suspend and store microphones of different specifications. However, during the process of quickly selecting different hanging heads 22, the phenomenon of the hanging head 22 at the bottom being suspended in the air may occur (e.g., Figure 4 As shown in the diagram, a flexible protective sleeve can be pre-installed on the hanging head 22 to prevent the hanging head 22 from swinging and impacting the microphone. Furthermore, since the microphone is suspended and retrieved from the side of the suspension structure during use, the suspended hanging head 22 has minimal impact on the microphone's suspension and retrieval.
[0032] Secondly, when different hanging heads 22 are pre-adjusted and selected to suspend microphones of different specifications, the clamp plate 2 is modularized because the adjustment head 21 and the hanging head 22 are connected by snap-fit hinges, as are the hanging heads 22 with each other. Pressing the slider 5 pulls the clamp plate 2 out of the slide groove A11, and the position of the hanging head 22 can be freely disassembled and adjusted as needed, adjusting the required hanging head 22 to the bottom. Finally, the state of the clamp plate 2 in use is shown in the diagram. Figure 1 As shown, this avoids the phenomenon of the hanging head 22 being suspended, reducing structural redundancy.
[0033] Finally, it should be noted that the above embodiments are only preferred embodiments of this utility model and should not be used to limit the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.
Claims
1. A suspension structure for a microphone, comprising a substrate (1), characterized in that: The surface of the substrate (1) is slidably mounted with a clamp (2), the clamp (2) including an adjustment head (21) that is snapped together from top to bottom and at least two hanging heads (22), each of the hanging heads (22) having a suspension space (23) for holding a microphone, and each of the suspension spaces (23) having a different size. A locking component (4) is provided on the base plate (1), and the hanging head (22) can remain perpendicular to the clamp plate (2) under the locking of the locking component (4).
2. The suspension structure for a microphone according to claim 1, characterized in that: The locking assembly (4) includes a locking hole (41) opened on the side of the hanging head (22) and a support (42) fixed on the surface of the substrate (1). The support (42) is provided with a locking member (43) for cooperating with the locking hole (41) to restrict the rotation of the hanging head (22).
3. The suspension structure for a microphone according to claim 2, characterized in that: The support (42) has a receiving cavity (431) on the side facing the hanging head (22), and the locking member (43) includes a locking pin (432) inserted into the receiving cavity (431), and a spring (433) is installed between the locking pin (432) and the bottom wall of the receiving cavity (431).
4. The suspension structure for a microphone according to claim 3, characterized in that: The locking pin (432) includes a locking head (4321) that is inserted into the locking hole (41) and an unlocking rod (4322) integrally formed with the locking head (4321). The end of the unlocking rod (4322) away from the locking head (4321) extends out of the support (42), and a ring (4323) is fixed at the end of the unlocking rod (4322) extending out of the support (42).
5. The suspension structure for a microphone according to claim 4, characterized in that: The inner wall of the locking hole (41) is radially deepened to form a limiting groove (434), and the locking head (4321) is integrally formed with a limiting block (435) for inserting into the limiting groove (434) to restrict the rotation of the hanging head (22).
6. The suspension structure for a microphone according to any one of claims 1 to 5, characterized in that: The substrate (1) has a groove A (11) along its height direction on its surface, and the clamping plate (2) is vertically slidably installed in the groove A (11).
7. The suspension structure for a microphone according to claim 6, characterized in that: The surface of the substrate (1) is also provided with a slide groove B (12) that communicates with the slide groove A (11). A slider (5) is fixed on the adjusting head (21). The slider (5) is used to slide and cooperate with the slide groove B (12) to limit the movement of the adjusting head (21).