Sterilizable sound box
By installing ultraviolet disinfection lamps and translucent inner sleeves on the speaker, combined with a limiting platform, the problem of inconvenient microphone disinfection for speakers is solved, enabling convenient and comprehensive microphone disinfection and preventing the spread of diseases.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU JINZUAN ELECTRIC APPLIANCES CO LTD
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-19
AI Technical Summary
Existing speakers cannot effectively disinfect microphones during use, posing a risk of disease transmission, and existing disinfection methods are inconvenient.
A microphone housing with an ultraviolet disinfection lamp is installed on the speaker. The ultraviolet light source is directly or around the microphone head through the light-transmitting inner sleeve. Combined with the limiting and positioning platform, accurate positioning is ensured, so as to achieve all-round disinfection of the microphone.
It enables convenient and comprehensive disinfection of microphones, ensuring hygienic use, preventing the spread of diseases, and eliminating the need for additional disinfection steps.
Smart Images

Figure CN224385617U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of speaker technology, specifically to a speaker that can disinfect and sterilize. Background Technology
[0002] Speakers are widely used in our daily lives, and to meet user needs, more and more speakers are equipped with microphones for use outdoors or at gatherings. We know that when users speak into a microphone, saliva easily adheres to the microphone head as droplets, which is extremely unhygienic. In multi-user scenarios, if one person has a disease that can be transmitted through saliva, it is very likely to be transmitted to others through the microphone. Existing speakers only have a microphone storage function and lack a microphone sterilization function, posing a risk of disease transmission during microphone use. Sterilizing the microphone requires additional methods, which is inconvenient. Therefore, we urgently need a speaker that is easy to use and can sterilize the microphone in real time. Utility Model Content
[0003] The main purpose of this invention is to provide a speaker that can disinfect and sterilize. This invention can sterilize and disinfect the microphone by setting a microphone holder with an ultraviolet disinfection lamp, thus solving the problem that existing speakers cannot disinfect the microphone during use.
[0004] The technical solution adopted by this utility model to solve its technical problem is a disinfection and sterilization speaker, including a cabinet and at least one slot for inserting a microphone on the cabinet. The slot is connected to an inner sleeve that covers the microphone. The inner sleeve is made of a light-transmitting material. An ultraviolet disinfection lamp is installed inside the cabinet to irradiate the inner sleeve. A control panel for controlling the speaker and the ultraviolet disinfection lamp is installed on the cabinet.
[0005] During use, the microphone head is easily contaminated with the user's saliva. When the microphone needs to be disinfected, insert the microphone head downwards into the inner sleeve, turn on the ultraviolet disinfection lamp, and the light shines through the light-transmitting inner sleeve onto the microphone head for disinfection. It is easy to use, and the light diffusion can also effectively cover the microphone head for more thorough disinfection.
[0006] Preferably, the inner sleeve is a funnel-shaped cylinder with an upper radius greater than the lower radius. The bottom of the inner sleeve is provided with a positioning platform for positioning the bottom of the microphone, and the upper part of the inner sleeve is provided with an inwardly protruding limiting platform for limiting the microphone head.
[0007] The positioning platform positions the bottom of the microphone, while the limiting platform limits the microphone head. During microphone disinfection, the limiting platform can restrict the downward movement of the microphone head for precise positioning.
[0008] Preferably, the ultraviolet disinfection lamp includes a bottom light source, which is disposed at the bottom of the inner sleeve and shines the light source upwards onto the inner sleeve.
[0009] The bottom light source can directly illuminate the top surface of the microphone head, providing direct light source disinfection and sterilization to the main contact surface, with good results.
[0010] Preferably, the ultraviolet disinfection lamp further includes a head light source, which is a ring-shaped ultraviolet disinfection lamp, fitted onto the upper part of the inner sleeve and irradiating the light source into the inner sleeve.
[0011] The head illumination unit wraps around the microphone head 360° in a surround manner, disinfecting and sterilizing the sides. The diffusion of light can effectively cover the microphone head.
[0012] Preferably, the positioning platform has a mounting groove in the middle of its outer side, and the bottom light source is disposed in the mounting groove.
[0013] The mounting slot makes it easy to place the ultraviolet disinfection lamp, and its bottom-mounted design ensures that the light shines upwards.
[0014] Preferably, the positioning platform has a mounting groove in the middle of its outer side, and a mounting platform surrounding the mounting groove is also provided on the outer side of the positioning platform. A charging component for charging the microphone is provided on the mounting platform.
[0015] The mounting platform is used to install the charging components, and its structure, combined with the surrounding mounting slot, makes good use of the space at the bottom of the inner sleeve.
[0016] Preferably, the charging component is a wireless charging device used to wirelessly charge the microphone inserted into the inner sleeve, and the control panel is electrically connected to the wireless charging device to control the switching of the wireless charging device.
[0017] Using wireless charging avoids installing electrical connectors inside the inner sleeve, saving space in the inner sleeve, and eliminates concerns about water damage to the charging components if the inner sleeve gets wet.
[0018] Preferably, the mounting platform is provided with a plurality of downwardly extending lower positioning posts for fixed connection with the charging component.
[0019] The installation platform uses a bottom-mounted design to securely connect the charging components, ensuring accurate positioning and support for the charging components, thus better protecting them from damage due to stress.
[0020] Preferably, the slot and the inner sleeve are connected vertically, and the upper end of the inner sleeve is provided with a fixing platform for fixing the inner sleeve and the slot, and the limiting platform is provided with a plurality of downwardly extending upper positioning posts for fixing with the speaker.
[0021] The connection between the upper and lower parts optimizes the connection space between the slot and the inner sleeve. The inner sleeve can be fixed from the top and bottom by the fixed platform and the upper positioning post, ensuring the tightness of the connection between the inner sleeve and the slot and the stability of the inner sleeve.
[0022] Preferably, the slot is further provided with symmetrical slots on both sides for removing the microphone.
[0023] The beneficial effects of this utility model are:
[0024] This invention features a microphone insertion slot on a speaker enclosure, connected to a translucent inner sleeve. The microphone is housed within this sleeve, and an ultraviolet (UV) disinfection lamp inside the enclosure shines its light through the inner sleeve onto the microphone for disinfection. Since the microphone head easily becomes contaminated with the user's saliva during use, disinfection is performed by inserting the microphone head downwards into the inner sleeve and turning on the UV disinfection lamp. The light passes through the translucent inner sleeve and illuminates the microphone head for disinfection. This design is convenient and, utilizing the diffusion properties of light, effectively covers the microphone head for more thorough disinfection. Attached Figure Description
[0025] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0026] Figure 1 This is a schematic diagram of the speaker structure of this utility model.
[0027] Figure 2 This is a partial structural diagram of the speaker of this utility model.
[0028] Figure 3 This is a schematic diagram of the inner sleeve structure of this utility model.
[0029] Figure 4 This is a schematic diagram of the inner sleeve structure of this utility model.
[0030] Figure 5 This is a schematic diagram of the inner sleeve structure of this utility model.
[0031] Figure 6 This is a schematic diagram of the cross-sectional structure of the speaker of this utility model. Detailed Implementation
[0032] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0033] One embodiment of this utility model is as follows: Figures 1-6As shown, a speaker box capable of disinfection and sterilization is provided, including a box body 1 and at least one slot 3 on the box body 1 for inserting a microphone 2. The slot 3 is connected to an inner sleeve 4 that covers the microphone 2. The microphone 2 is inserted into the inner sleeve 4 with its head facing upward through the slot 3 for placement. The inner sleeve 4 is a funnel-shaped cylinder with an upper radius larger than its lower radius. The inner sleeve 4 includes an upper area 5 for accommodating the head of the microphone 2 and a lower area 6 for accommodating the body of the microphone 2. The bottom of the inner sleeve 4 is provided with a positioning platform 7 for positioning the bottom of the microphone 2. The upper part of the inner sleeve 4 is provided with an inwardly protruding limiting platform 8 for limiting the head of the microphone 2. The positioning platform 7 and the limiting platform 8 ensure the accuracy of the microphone 2's position after insertion. The lower area 6 of the inner sleeve 4 is also provided with multiple downwardly extending reinforcing ribs 9. After the microphone 2 is inserted, the reinforcing ribs 9 fix the body of the microphone 2, preventing the microphone 2 from shaking inside the inner sleeve 4 when the speaker box is moved, and supporting the strength of the inner sleeve 4.
[0034] The slot 3 and the inner sleeve 4 are connected vertically. The upper end of the inner sleeve 4 is provided with a fixing platform 10 for fixing the inner sleeve 4 to the slot 3. The speaker enclosure has a corresponding protrusion inside the fixing platform 10. The fixing platform 10 and the protrusion are fixed together by screws. The limiting platform 8 has multiple downward-extending upper positioning posts 11 for fixing to the speaker enclosure. The upper positioning posts 11 are fixed inside the enclosure 1 by screws. The fixing platform 10 and the limiting platform 8 fix the inner sleeve 4 vertically, ensuring the accuracy of the inner sleeve 4's installation position. The slot 3 also has symmetrical slots 12 on both sides for removing the microphone 2. The slots 12 allow users to easily insert their fingers into the slots to pinch the microphone head and remove the microphone 2, making it convenient to use.
[0035] The inner sleeve 4 is made of a light-transmitting material, allowing ultraviolet light sources to pass through smoothly. The box 1 is equipped with an ultraviolet disinfection lamp that irradiates the inner sleeve 4. The box 1 is equipped with a control panel 13 for controlling the speaker and the ultraviolet disinfection lamp. After the microphone 2 is inserted into the inner sleeve 4, the ultraviolet disinfection lamp can be activated through the control panel 13 to disinfect and sterilize the microphone 2 inside the inner sleeve 4, ensuring the hygiene of the microphone 2.
[0036] In one embodiment, considering the importance of disinfecting the top surface of the microphone 2 head as the main contact surface, it is necessary to directly irradiate it with ultraviolet light source for disinfection. The ultraviolet disinfection lamp includes a bottom light source 14, which is set at the bottom of the inner sleeve 4 and irradiates the light source upwards onto the inner sleeve 4. When in use, the microphone 2 head is inserted downwards into the inner sleeve 4, and the limiting platform 8 limits the insertion depth of the microphone 2. The bottom light source 14 can directly irradiate the top surface of the microphone 2 head for disinfection and sterilization.
[0037] In one embodiment, the ultraviolet disinfection lamp further includes a head light source 15, which is a ring-shaped ultraviolet disinfection lamp fitted on the upper part of the inner sleeve 4 and irradiating the light source inward into the inner sleeve 4. This can form a 360° surround ultraviolet irradiation on the head of the microphone 2 without dead angles, ensuring the disinfection and sterilization effect.
[0038] The positioning platform 7 has a mounting groove 16 in the middle of its outer side, and the bottom light source 14 is located in the mounting groove 16. The positioning platform 7 also has a mounting platform 17 surrounding the mounting groove 16. The mounting platform 17 is equipped with a charging component 18 for charging the microphone 2. After the microphone 2 is inserted into the inner sleeve 4, the charging component 18 can charge the microphone 2.
[0039] In one embodiment, considering the convenience of charging the microphone 2, the charging component 18 is a wireless charging component, used to wirelessly charge the microphone 2 inserted into the inner sleeve 4. The control panel 13 is electrically connected to the wireless charging component to control the switch of the wireless charging component. The wireless charging component can be implemented using any existing technology, and its specific structure will not be described in detail here.
[0040] For the installation of the charging component 18, the installation platform 17 is provided with a plurality of downwardly extending lower positioning posts 19 for fixed connection with the charging component 18. The charging component 18 can be aligned with the lower positioning posts 19 and then fixed by screws.
[0041] Working principle:
[0042] When in use, the microphone 2 head is inserted downwards into the inner sleeve 4. The limiting platform 8 limits the insertion depth of the microphone 2 head. The ultraviolet disinfection lamp is activated via the control panel 13. The bottom light illuminator 14 directly irradiates and disinfects the main contact surface of the microphone 2, that is, the top surface of the microphone 2 head. The head light illuminator 15 irradiates and disinfects the microphone 2 head in a 360° circumferential manner. Due to the diffusion of light, the head light illuminator 15 can cover the entire circumference of the microphone 2 head, thus forming a disinfection treatment without dead angles. When the microphone 2 head is inserted into the inner sleeve 4 with the microphone 2 head facing upwards, the limiting platform 8 and the positioning platform 7 respectively limit and position the head and bottom of the microphone 2. The reinforcing rib 9 fixes the body of the microphone 2, ensuring that the microphone 2 will not shake due to the movement of the speaker after being inserted into the inner sleeve. The control panel 13 can control the wireless charging device to charge the microphone 2, ensuring that the microphone 2 has sufficient power, making it very convenient to use.
[0043] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The descriptions of the above embodiments and specifications are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. A sterilizable sound box, characterized in that, The device includes a housing and at least one slot on the housing for inserting a microphone. The slot is connected to an inner sleeve that covers the microphone. The inner sleeve is made of a light-transmitting material. An ultraviolet disinfection lamp is installed inside the housing to irradiate the inner sleeve. A control panel for controlling the speaker and the ultraviolet disinfection lamp is installed on the housing.
2. The sterilizable sound box according to claim 1, wherein, The inner sleeve is a funnel-shaped cylinder with an upper radius greater than the lower radius. The bottom of the inner sleeve is provided with a positioning platform for positioning the bottom of the microphone, and the upper part of the inner sleeve is provided with an inwardly protruding limiting platform for limiting the microphone head.
3. The sterilizable sound box of claim 1, wherein, The ultraviolet disinfection lamp includes a bottom light source, which is located at the bottom of the inner sleeve and shines the light source upwards onto the inner sleeve.
4. The sterilizable sound box according to claim 3, wherein, The ultraviolet disinfection lamp also includes a head light source, which is a ring-shaped ultraviolet disinfection lamp that is fitted onto the upper part of the inner sleeve and illuminates the light source inwards into the inner sleeve.
5. The sterilizable sound box of claim 2, wherein, The positioning platform has a mounting groove in the middle of its outer side, and the bottom light source is installed in the mounting groove.
6. The sterilizable sound box of claim 2, wherein, The positioning platform has a mounting slot in the middle of its outer side, and a mounting platform surrounding the mounting slot is also provided on the outer side of the positioning platform. A charging component for charging the microphone is provided on the mounting platform.
7. The sterilizable sound box of claim 6, wherein, The charging component is a wireless charging device used to wirelessly charge the microphone inserted into the inner sleeve. The control panel is electrically connected to the wireless charging device and is used to control the switching of the wireless charging device.
8. The sterilizable soundbar of claim 6, wherein, The mounting platform is provided with multiple downward-extending lower positioning posts for fixed connection with the charging components.
9. The sterilizable sound box of claim 2, wherein, The slot and the inner sleeve are connected vertically. The upper end of the inner sleeve is provided with a fixing platform for fixing the inner sleeve and the slot. The limiting platform is provided with multiple downward-extending upper positioning posts for fixing with the speaker.
10. The sterilizable sound box of claim 1, wherein, The slot also has symmetrical slots on both sides for removing the microphone.