A detachable light-emitting microphone stand
The design, which combines the snap-fit connection between the base and the outer shell with the silicone snap-fit design, solves the problem of inconvenient disassembly of existing microphone logos, achieving convenient disassembly and improved structural stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 刘海曈
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-19
AI Technical Summary
The existing microphone logo removal process is cumbersome, glue residue can damage the microphone, and screws are prone to stripping, affecting structural stability.
The base and outer shell are connected by plastic clips. The illuminated sign slides into the placement slot, and the silicone sheet is inserted into the limiting slot. The silicone sheet engages with the microphone through hole, allowing for easy disassembly.
It enables easy removal of the logo, avoids problems such as glue residue and stripped screws, and improves disassembly and assembly efficiency as well as the structural stability of the microphone.
Smart Images

Figure CN224385637U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of microphone logo technology, specifically to an easily detachable luminous microphone logo. Background Technology
[0002] In stage performances, conference speeches, live broadcasts, and other event scenarios, microphones are the core devices for sound acquisition. Their logos not only serve as an important carrier for brand image display but also have a certain decorative function. To enhance visual appeal and recognizability, illuminated microphone logos are gradually gaining widespread use.
[0003] Most microphone logos on the market are fixed in place, typically using glue or screws to attach the logo to the microphone body. This fixed installation method has many problems. First, when the logo is damaged or the brand logo needs to be updated, the disassembly process is extremely cumbersome. Glue-attached logos are prone to leaving residue that is difficult to clean and may even damage the microphone surface. Screw-fixed logos, on the other hand, are prone to stripping due to repeated disassembly and removal, affecting the overall structural stability of the microphone. Therefore, those skilled in the art provide an easily removable luminous microphone logo to solve the problems mentioned in the background. Utility Model Content
[0004] The purpose of this invention is to provide an easily detachable luminous microphone logo, thereby solving the problems in the prior art.
[0005] This utility model provides the following technical solution: an easily detachable luminous microphone logo, comprising a base, a PCB board fitted on the surface of the base, the bottom surface of the PCB board being electrically connected to a switch via wires, an acrylic light guide tube fitted on the surface of the base above the PCB board, the acrylic light guide tube being attached to the PCB board, two sets of placement slots being symmetrically fixedly connected to the inner wall of the acrylic light guide tube, each set of placement slots being slidably connected to a luminous light sign, the input ends of each set of luminous light signs being electrically connected to the PCB board via wires, several sets of limiting slots being symmetrically opened on the inner wall of the acrylic light guide tube, several sets of silicone sheets being engaged in each of the several sets of limiting slots, four sets of plastic buckles being fixedly connected at equal intervals on the four sides of the base, an outer shell being attached to the top of the base, the base being engaged with the outer shell via the plastic buckles, the bottom of the acrylic light guide tube being attached to the surface of the base, the top of the acrylic light guide tube being attached to the inner wall of the top of the outer shell, and slots being opened on the inner walls of the outer shell corresponding to the outer walls of the four sets of plastic buckles.
[0006] As a preferred embodiment of the above technical solution, the illuminated sign is rectangular in shape, and the placement slot is a rectangular slot adapted to the illuminated sign.
[0007] As a preferred embodiment of the above technical solution, the four sets of slots are symmetrically arranged on the outer shell, and the four sets of slots penetrate the outer shell.
[0008] As a preferred embodiment of the above technical solution, all of the aforementioned silicone sheets are triangular in design, and the microphone surface is provided with through holes that match the number and shape of the silicone sheets.
[0009] As a preferred embodiment of the above technical solution, the portion of the silicone sheet inserted into the limiting groove is designed in a cylindrical shape, and the limiting groove is formed as a cylindrical groove that is adapted to some of the silicone sheets.
[0010] As a preferred embodiment of the above technical solution, a rubber pad may be glued to the surface of the base facing the PCB board, and a rubber pad may be glued to the surface of the outer shell facing the acrylic light guide tube.
[0011] Compared with the prior art, the beneficial effects of this utility model are:
[0012] This invention involves sliding a PCB board onto a base, then sliding a light-emitting sign into a placement slot, while simultaneously inserting a silicone sheet into a limiting slot. An acrylic light guide tube is then placed onto the PCB board, and plastic clips are engaged with the slots, allowing the base and outer shell to fit together and effectively limiting the movement of the acrylic light guide tube and light-emitting sign. A microphone is then slidably connected to the base and outer shell, with multiple silicone sheets engaging with preset slots in the microphone. When the base needs to be removed, the silicone sheets are simply slid off the microphone, facilitating the removal of the logo. This effectively solves the problem that logos and microphones are typically connected by glue or screws, making disassembly inconvenient. Attached Figure Description
[0013] Figure 1 A three-dimensional structural diagram of a light-emitting microphone logo that is easy to disassemble;
[0014] Figure 2 A bottom view of the structure of a light-emitting microphone logo that is easy to disassemble;
[0015] Figure 3 A schematic diagram of the overall disassembled structure of a light-emitting microphone logo that is easy to disassemble;
[0016] Figure 4 This is a schematic diagram of the exploded structure of the base of an easily detachable luminous microphone logo.
[0017] In the diagram: 1. Base; 2. PCB board; 3. Switch; 4. Acrylic light guide tube; 5. Placement slot; 6. Illuminated light sign; 7. Limiting slot; 8. Silicone sheet; 9. Outer shell; 10. Plastic buckle; 11. Slot. Detailed Implementation
[0018] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.
[0019] Please see Figures 1-4 As shown, this utility model provides a technical solution: an easily detachable luminous microphone logo, including a base 1, a PCB board 2 sleeved on the surface of the base 1, the bottom surface of the PCB board 2 being electrically connected to a switch 3 via a wire, an acrylic light guide tube 4 sleeved on the surface of the base 1 above the PCB board 2, the acrylic light guide tube 4 being attached to the PCB board 2, two sets of placement slots 5 being symmetrically fixedly connected to the inner wall of the acrylic light guide tube 4, each set of placement slots 5 being slidably connected to a luminous light sign 6, the input ends of each set of luminous light signs 6 being connected via wires. Electrically connected to PCB board 2, the inner wall of acrylic light guide tube 4 is symmetrically provided with several sets of limiting grooves 7, and several sets of silicone sheets 8 are engaged in the several sets of limiting grooves 7. Four sets of plastic buckles 10 are fixedly connected to the four sides of the base 1 at equal intervals. The top of the base 1 is attached to the outer shell 9. The base 1 is engaged with the outer shell 9 through the plastic buckles 10. The bottom of acrylic light guide tube 4 is attached to the surface of the base 1. The top of acrylic light guide tube 4 is attached to the inner wall of the top of the outer shell 9. The outer walls of the four sets of plastic buckles 10 are respectively provided with slots 11 on the inner walls of the outer shell 9.
[0020] Specifically, the PCB board 2 is slid onto the base 1, and then the illuminated sign 6 is slid into the placement slot 5. At the same time, the silicone sheet 8 is inserted into the limiting slot 7. The acrylic light guide tube 4 is then placed on the PCB board 2, and the plastic clip 10 is engaged with the slot 11, so that the base 1 and the outer shell 9 are attached to each other. This allows the base 1 and the outer shell 9 to limit the acrylic light guide tube 4 and the illuminated sign 6. The microphone is then slidably connected to the base 1 and the outer shell 9, so that multiple sets of silicone sheets 8 are engaged with the preset slots in the microphone. When the base 1 needs to be removed, the silicone sheet 8 can be slid off the microphone, making it easy for staff to remove the logo from the microphone. This effectively solves the problem that the logo and the microphone are usually connected by glue or screws, which makes disassembly inconvenient.
[0021] As one implementation method in this embodiment, please refer to Figures 1-3 As shown, the illuminated sign 6 is rectangular in shape, and the placement slot 5 is a rectangular slot adapted to the illuminated sign 6.
[0022] Specifically, the implementation ensures that the luminous sign 6 fits snugly into the placement slot 5, preventing the luminous sign 6 from shaking when used in the placement slot 5. This guarantees the stability of the luminous sign 6 during use and prevents it from shaking, which could cause the displayed sign to tilt or be obscured.
[0023] As one implementation method in this embodiment, please refer to Figures 1-3 As shown, the four sets of slots 11 are symmetrically arranged on the outer shell 9, and the four sets of slots 11 all penetrate the outer shell 9.
[0024] In practice, this allows staff to easily operate the plastic buckle 10 through the slot 11, so that the plastic buckle 10 can slide out of the slot 11, thereby releasing the outer shell 9 from its limit.
[0025] As one implementation method in this embodiment, please refer to Figures 1-4 As shown, several sets of silicone sheets 8 are all triangular in design, and the microphone surface is provided with through holes that match the number and shape of the silicone sheets 8.
[0026] In practice, the silicone sheet 8 can be engaged with the through hole in the microphone to fix the logo to the microphone. When it is necessary to remove the microphone, the silicone sheet 8 can be slid out of the through hole in the microphone, so that the staff can quickly remove and install the logo.
[0027] As one implementation method in this embodiment, please refer to Figures 1-4 As shown, the portion of several sets of silicone sheets 8 inserted into the limiting groove 7 is designed in a cylindrical shape, and the limiting groove 7 is opened as a cylindrical groove that is adapted to some of the silicone sheets 8.
[0028] In practice, the limiting groove 7 and the silicone sheet 8 can be fully fitted together, so that the limiting groove 7 can limit the silicone sheet 8, and the silicone sheet 8 can be aligned and positioned with the through hole on the microphone, which further improves the installation efficiency of the logo.
[0029] As one implementation method in this embodiment, please refer to Figures 1-3 As shown, a rubber pad can be glued to the surface of the base 1 facing the PCB board 2, and a rubber pad can be glued to the surface of the outer shell 9 facing the acrylic light guide tube 4.
[0030] Specifically, this implementation reduces the hard contact between the base 1 and the PCB board 2, and between the acrylic light guide tube 4 and the outer shell 9, thereby reducing the damage caused by the sliding collision between the base 1 and the PCB board 2. It also provides a buffering effect when the base 1 and the PCB board 2 come into contact, thereby reducing the surface wear of the base 1 and the PCB board 2 and further extending the service life of the base 1 and the PCB board 2.
[0031] Working principle: When in use, first slide the illuminated sign 6 into the placement slot 5, then insert the silicone sheet 8 into the limiting slot 7, then attach the base 1 to the PCB board 2, then attach the PCB board 2 to the acrylic light guide tube 4, then attach the outer shell 9 to the base 1 and secure it in the slot 11 with the plastic clip 10, then put the base 1 and outer shell 9 on the microphone, aligning the silicone sheet 8 with the through hole on the microphone, and then attach the silicone sheet 8 to the microphone to install the logo on the microphone. When it is necessary to remove the base 1, simply slide the silicone sheet 8 off the microphone, making it easy for staff to remove the logo from the microphone.
[0032] The above embodiments are only used to illustrate the technical solution of this utility model, and are not intended to limit it.
Claims
1. A detachable lighted microphone podium logo comprising a base (1) characterized by: A PCB board (2) is fitted onto the surface of the base (1). The bottom surface of the PCB board (2) is electrically connected to a switch (3) via a wire. An acrylic light guide tube (4) is fitted onto the surface of the base (1) above the PCB board (2). The acrylic light guide tube (4) is attached to the PCB board (2). Two sets of placement slots (5) are symmetrically fixedly connected to the inner wall of the acrylic light guide tube (4). A light-emitting sign (6) is slidably connected to each of the two sets of placement slots (5). The input ends of the two sets of light-emitting signs (6) are electrically connected to the PCB board (2) via wires. The inner wall of the acrylic light guide tube (4) A number of limiting grooves (7) are symmetrically provided, and a number of silicone sheets (8) are engaged in each of the limiting grooves (7). Four sets of plastic buckles (10) are fixedly connected to the four sides of the base (1) at equal intervals. The top of the base (1) is attached to the outer shell (9). The base (1) is engaged with the outer shell (9) through the plastic buckles (10). The bottom of the acrylic light guide tube (4) is attached to the surface of the base (1). The top of the acrylic light guide tube (4) is attached to the inner wall of the top of the outer shell (9). The outer walls of the four sets of plastic buckles (10) are respectively provided with slots (11) on the inner walls of the outer shell (9).
2. A detachable lighted microphone podium sign according to claim 1, wherein: The illuminated sign (6) is rectangular in shape, and the placement slot (5) is a rectangular slot adapted to the illuminated sign (6).
3. A detachable lighted microphone podium sign according to claim 1, wherein: The four sets of slots (11) are symmetrically arranged on the outer shell (9), and the four sets of slots (11) penetrate the outer shell (9).
4. The detachable lighted microphone stand of claim 1, wherein: Several sets of silicone sheets (8) are triangular in design, and the microphone surface is provided with through holes that match the number and shape of the silicone sheets (8).
5. The detachable lighted microphone stand of claim 1, wherein: The portion of the silicone sheet (8) inserted into the limiting groove (7) of several groups is cylindrical in design, and the limiting groove (7) of several groups is opened as a cylindrical groove adapted to some of the silicone sheet (8).
6. A detachable lighted microphone stand according to claim 1, wherein: A rubber pad can be glued to the side surface of the base (1) facing the PCB board (2), and a rubber pad can be glued to the side surface of the outer shell (9) facing the acrylic light guide tube (4).