A new abyssal tunnel speaker lamp
By incorporating a replaceable total reflection mirror with a printed logo, a transparent display screen, and a multi-functional main control chip into the abyss tunnel speaker light, the problem of the abyss light's single function has been solved, enabling multi-functional display and flexible use, thus enhancing the practicality and entertainment value of the light fixture.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN YINGHONGYUAN TECHNOLOGY CO LTD
- Filing Date
- 2025-09-19
- Publication Date
- 2026-06-26
AI Technical Summary
Existing abyss lights have limited functionality and cannot meet users' needs for intelligent and integrated equipment, resulting in insufficient flexibility in use.
A novel abyss tunnel speaker light has been designed. By setting a replaceable total reflection mirror to print the logo, combined with a transparent display screen and a multi-functional main control chip, it can realize time display and audio playback. It is equipped with a stand for multiple uses.
It enriches the display effect of lighting fixtures, enhances their practicality and entertainment value, is suitable for various scenarios, and reduces usage costs.
Smart Images

Figure CN224414967U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a novel deep-sea tunnel speaker light, and belongs to the technical field of deep-sea tunnel lighting equipment. Background Technology
[0002] The Abyss Mirror (also known as the Infinity Mirror or Thousand-Layer Mirror) is a decorative lighting fixture that uses optical principles to create a visual effect of infinite extension. In recent years, it has been widely used in commercial displays and home decoration.
[0003] Traditional abyss lights have limited functionality, typically only providing basic light emission and mirror effects, failing to meet users' higher demands for intelligent and integrated devices. Patent CN220554087U discloses an abyss mirror speaker, comprising a speaker housing and a mounting bracket within the housing. The mounting bracket has a first mirror body and a second mirror body arranged from the inside out, with a cavity between them. An LED light strip is installed on the inner wall of the cavity. The first and second mirror bodies have mounting holes, and a speaker is installed within each hole. This design offers advantages such as… The result is that by combining the features of a one-way mirror in the first mirror and a one-way perspective mirror in the second mirror with the light effect of LED light strips, a magnificent effect of a deep abyss is created. In addition, a speaker is placed in the middle of the mirror, creating the effect of a speaker placed in the abyss. This not only provides consumers with audio entertainment activities, but also increases the fun of using the speaker. However, since the abyss mirror is mainly used for decoration, and can also play a certain role in advertising in some occasions, the existing abyss mirror is still relatively simple in function and lacks flexibility in use. Therefore, a new type of abyss tunnel speaker light is proposed to solve the problems existing in the current technology. Utility Model Content
[0004] The purpose of this utility model is to address the defects or deficiencies in the existing technology by providing a new type of abyss tunnel speaker light. By setting a replaceable total reflection mirror, a logo can be printed on the total reflection mirror for advertising purposes. It also features a transparent display screen for time display. Combined with the abyss lighting effect, it greatly enriches the display effect of the light fixture. Furthermore, by setting a bracket, the light fixture can be used in multiple ways, improving its practicality.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: It includes a lamp holder 1, a lens group 2 is provided at the front end of the lamp holder 1, the lens group 2 includes a front mirror 21 and a rear mirror 22, the rear end of the lamp holder 1 is a speaker mounting cavity 11, a speaker 6 is provided in the speaker mounting cavity 11, a semi-circular slot 12 for mounting the rear mirror 22 is provided at the front end of the speaker mounting cavity 11, a pull plate 5 is inserted into the top of the rear mirror 22, an optical cavity is formed by a gap between the front mirror 21 and the rear mirror 22, a plurality of LED beads 8 are arranged circumferentially on the side wall of the optical cavity, a transparent display screen 7 is provided on the rear side of the front mirror 21, and a bracket 4 is also provided on the lamp holder 1.
[0006] Furthermore, the front mirror 21 is a semi-transparent semi-reflective mirror, and the rear mirror 22 is a total reflection mirror.
[0007] Furthermore, a control box 9 is provided at the bottom of the back of the lamp holder 1.
[0008] Furthermore, the control box 9 is equipped with a control motherboard 91, and the control motherboard 91 is equipped with a main control chip 92. The main control chip 92 adopts an ESP32 chip, which integrates a clock module, a lighting control module, a WIFI module, and a Bluetooth module. The main control chip 92 is electrically connected to the speaker 6, the transparent display screen 7, and the LED beads 8.
[0009] Furthermore, the lamp holder 1 has several staggered and opposite locking blocks 14 arranged circumferentially corresponding to the position of the rearview mirror 22, and the double rows of locking blocks 14 constrain and limit the rearview mirror 22.
[0010] Furthermore, the slot 12 is provided with support slots 13 at both ends, and the support slots 13 are circular slots.
[0011] Furthermore, the bracket 4 is a U-shaped bracket with fastening rings 41 on the inner sides of the top of both sides. The fastening rings 41 are made of polytetrafluoroethylene with a friction coefficient of 0.05 to 0.15. The fastening rings 41 are frictionally connected to the inner wall of the bracket groove 13.
[0012] Furthermore, the control box 9 is equipped with a rechargeable battery 10 that is electrically connected to the control motherboard 91, and the control motherboard 91 is equipped with a charging port 16 that extends to the side of the control box 9 away from the lens group 2.
[0013] Furthermore, the control motherboard 91 is provided with a power button 3 on the side facing the lens group 2, and the power button 3 extends out from the front of the lamp holder 1.
[0014] Furthermore, the control motherboard 91 is also provided with a function button 15 on the side away from the lens group 2, and the function button 15 extends out from the back of the control box 9.
[0015] Furthermore, a logo area 23 is provided in the middle of the rearview mirror 22.
[0016] After adopting the above technical solution, the beneficial effects of this utility model are as follows: by setting a replaceable total reflection mirror, a logo can be printed on the total reflection mirror to play a promotional role, and a transparent display screen that can display the time is set up. Combined with the abyss lighting effect, the display effect of the lamp is greatly enriched. At the same time, by setting up a bracket, the lamp can be used in a variety of ways, which improves the practicality of the lamp. Attached Figure Description
[0017] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0018] Figure 1 This is a schematic diagram of the structure of this utility model;
[0019] Figure 2 yes Figure 1 The second angle view;
[0020] Figure 3 This is an exploded structural diagram of this utility model;
[0021] Figure 4 This is a schematic diagram of the control principle of this utility model.
[0022] Explanation of reference numerals in the attached diagram: Lamp holder 1, Lens assembly 2, Power button 3, Bracket 4, Pull plate 5, Speaker 6, Transparent display screen 7, LED beads 8, Control box 9, Rechargeable battery 10, Speaker mounting cavity 11, Slot 12, Bracket slot 13, Clip 14, Function button 15, Charging port 16, Front mirror 21, Rear mirror 22, Logo area 23, Fastening ring 41, Control motherboard 91, Main control chip 92. Detailed Implementation
[0023] See Figures 1-4 As shown, the technical solution adopted in this specific embodiment is as follows: it includes a lamp holder 1, a lens group 2 is provided at the front end of the lamp holder 1, the lens group 2 includes a front mirror 21 and a rear mirror 22, and a speaker mounting cavity 11 is provided at the rear end of the lamp holder 1. A speaker 6 is provided in the speaker mounting cavity 11. By setting a speaker behind the lens group, music can be played, increasing the entertainment value of the lamp.
[0024] The front end of the speaker mounting cavity 11 is provided with a semi-circular slot 12 for installing the rear mirror 22. A pull plate 5 is inserted into the top of the rear mirror 22. A LOGO area 23 is provided in the middle of the rear mirror 22. Several staggered and opposite locking blocks 14 are provided in the circumference of the lamp holder 1 corresponding to the position of the rear mirror 22. The double rows of locking blocks 14 constrain and limit the rear mirror 22. In order to meet the advertising needs in some occasions, a LOGO area is provided on the rear mirror, which can print the corresponding LOGO. At the same time, through the setting of the slot, each rear mirror is connected to a pull plate. The rear mirror can be removed from the slot through the pull plate. When the rear mirror is inserted, the installation and positioning of the rear mirror is achieved by the constraint of the locking blocks. Thus, the rear mirrors printed with different LOGOs can be replaced without considering the entire lamp, making the lamp more versatile and applicable, and effectively reducing the cost of use.
[0025] An optical cavity is formed by a gap between the front mirror 21 and the rear mirror 22. Several LED beads 8 are arranged circumferentially on the side wall of the optical cavity. A transparent display screen 7 is arranged on the rear side of the front mirror 21. In this embodiment, a transparent display screen is arranged on the rear side of the front mirror for time display. The transparent display screen adopts a Micro-OLED display screen or a transparent OLED display screen with high light transmittance (≥90%). When the time is not displayed, the display screen will not affect the display effect of the light due to the high brightness of the light. When the display screen is turned on to display the time, the time will produce a floating effect, which, together with the infinite extension of the abyss tunnel, brings a more three-dimensional visual effect and also enriches the functionality of the lamp.
[0026] The lamp holder 1 is also equipped with a bracket 4. Traditional abyss lamps usually do not have a bracket structure and generally have a hanging hole on the top of the lamp for hanging. The usage is relatively simple. However, in this embodiment, the bracket can be used to support illumination at different angles and can also be used for hanging. The usage is more diversified and the user experience is better.
[0027] More specifically, the front mirror 21 is a semi-transparent and semi-reflective mirror, and the rear mirror 22 is a total reflection mirror. This combination is a conventional combination for abyss lights. The rear mirror reflects light to the front mirror, and the front mirror, under the effect of semi-transparency and semi-reflection, reflects some light back to the rear mirror, while some light passes through, thus creating an effect of infinite extension and gradual change in light.
[0028] More specifically, a control box 9 is provided at the bottom of the back of the lamp holder 1. The control box 9 contains a control motherboard 91, and the control motherboard 91 is equipped with a main control chip 92. The main control chip 92 is an ESP32 chip, which integrates a clock module, a lighting control module, a WIFI module, and a Bluetooth module. The main control chip 92 is electrically connected to the speaker 6, the transparent display screen 7, and the LED beads 8. In this embodiment, by setting the ESP32 main control chip, multiple functions can be integrated. The WIFI module can be used to connect to the network to obtain accurate time information, and the Bluetooth module can be used to connect to external electronic devices. The external electronic devices can also set the time by installing an APP. Specifically, Bluetooth pairing is performed by pressing a button, and then the WIFI is set through the APP to connect the device to the Internet. At this time, the time setting function on the APP can be used to automatically obtain or manually set the time. When automatically obtaining the time, it works with the clock module to directly display the obtained time information.
[0029] After connecting to an electronic device, the audio signal is processed and amplified through the integrated Bluetooth module and then played through a speaker;
[0030] The lighting control module is associated with the power switch and LED beads. The power switch directly controls the circuit of the LED beads. After the power switch is turned on, pressing the function button will cause the lighting control module to output a pulse width modulation (PWM) signal to control the brightness, color and various dynamic lighting modes of the LED beads.
[0031] During production, the main control chip can be programmed to enable text editing. Text can be edited via an app and then displayed on the screen, allowing the screen to display not only the time but also text information, resulting in richer content. However, text and time displays are not simultaneous and require corresponding mode selection to enable. The setting of this function depends on production and usage needs, and the purchase cost varies for users.
[0032] After connecting to electronic devices via Bluetooth, the lamps can play audio content from those devices, thus enhancing their entertainment value.
[0033] More specifically, the slot 12 has support grooves 13 at both ends, which are circular grooves. The support 4 is a U-shaped support with fastening rings 41 on the inner sides of the top of both sides. The fastening rings 41 are made of polytetrafluoroethylene (PTFE) with a friction coefficient of 0.05 to 0.15. The fastening rings 41 are frictionally connected to the inner wall of the support groove 13. The inner wall of the support groove is hard anodized, with a surface roughness Ra value ranging from 0.4 μm to 0.8 μm. In conjunction with the PTFE fastening rings, reliable frictional positioning at any angle is achieved. In this embodiment, by setting the PTFE fastening rings to fit tightly with the support groove, and the support groove being made of hard anodized aluminum alloy with an inner wall surface roughness Ra value ranging from 0.4 μm to 0.8 μm, the support can be positioned at any angle during rotation without the need for other positioning structures.
[0034] More specifically, the control box 9 is equipped with a rechargeable battery 10 that is electrically connected to the control motherboard 91. The control motherboard 91 is equipped with a charging port 16 that extends to the side of the control box 9 away from the lens group 2. In this embodiment, a rechargeable battery is used as the power source, and the battery can be charged through the charging port, which is more convenient for long-term use.
[0035] More specifically, the control motherboard 91 has a power button 3 on the side facing the lens group 2. The power button 3 extends from the front of the lamp holder 1. The power button controls the on / off of the light and also controls the power supply to the speaker and transparent display screen. Only after the power is turned on can the time display and audio playback be further performed.
[0036] More specifically, the control motherboard 91 is also provided with a function button 15 on the side away from the lens group 2. The function button 15 extends from the back of the control box 9. The function button includes volume up and down buttons, Bluetooth pairing button, and time display button. Pressing and holding the time display button allows for specific adjustments via the volume up and down buttons.
[0037] The working principle of this utility model is as follows: A logo can be printed on the logo area 23 as needed. The rear mirror 22 is replaceable, allowing for different rear mirrors to be used depending on the application, thus achieving different logo display effects without changing the lighting fixtures. When in use, pressing the power button 3 activates the abyss light mode, turning on the LED beads 8 to emit light. The light reflects back and forth between the front mirror 21 and the rear mirror 22, creating an infinitely extending abyss visual effect. Simultaneously, the clock display and Bluetooth speaker playback functions can be selected via function button 15. Because a transparent display screen 7 is used, it does not obstruct the original abyss visual effect when not in use. When the clock display is activated, the time appears to float, superimposed on the original visual effect, thus providing a more immersive experience. The lighting provides a unique user experience, making it easy for users to check the time. With Bluetooth enabled, it can pair with smartphones and other electronic devices to play music and connect to the internet via a wireless network. This allows for direct time data acquisition when there is a network connection, improving clock accuracy. When there is no network, the phone can be used as a hotspot to obtain time data without much setup. Time can also be set directly via function key 16, offering multiple time setting options to suit various usage scenarios and allowing users to operate according to their needs. When installing the light fixture, it can be placed directly on a flat surface using bracket 4, or suspended using bracket 4, allowing for selection based on the specific layout and enhancing its practicality.
[0038] The above description is only used to illustrate the technical solution of this utility model and is not intended to limit it. Any other modifications or equivalent substitutions made by those skilled in the art to the technical solution of this utility model, as long as they do not depart from the spirit and scope of the technical solution of this utility model, should be covered within the scope of the claims of this utility model.
Claims
1. A novel deep-sea tunnel speaker light, characterized in that: It includes a lamp holder (1), a lens group (2) is provided at the front end of the lamp holder (1), the lens group (2) includes a front mirror (21) and a rear mirror (22), the rear end of the lamp holder (1) is a speaker mounting cavity (11), a speaker (6) is provided in the speaker mounting cavity (11), a semi-circular slot (12) for mounting the rear mirror (22) is provided at the front end of the speaker mounting cavity (11), a pull plate (5) is inserted into the top of the rear mirror (22), an optical cavity is formed by a gap between the front mirror (21) and the rear mirror (22), a number of LED beads (8) are arranged circumferentially on the side wall of the optical cavity, a transparent display screen (7) is provided on the rear side of the front mirror (21), and a bracket (4) is also provided on the lamp holder (1).
2. The novel deep-sea tunnel speaker light according to claim 1, characterized in that: The front mirror (21) is a semi-transparent semi-reflective mirror, and the rear mirror (22) is a total reflection mirror.
3. The novel deep-sea tunnel speaker light according to claim 1, characterized in that: A control box (9) is provided on the bottom back of the lamp holder (1).
4. The novel deep-sea tunnel speaker light according to claim 3, characterized in that: The control box (9) is equipped with a control motherboard (91), and the control motherboard (91) is equipped with a main control chip (92). The main control chip (92) adopts an ESP (32) chip, which integrates a clock module, a lighting control module, a WIFI module, and a Bluetooth module. The main control chip (92) is electrically connected to the speaker (6), the transparent display screen (7), and the LED beads (8).
5. A novel deep-sea tunnel speaker light according to claim 1, characterized in that: The lamp holder (1) has several staggered and opposite locking blocks (14) arranged circumferentially corresponding to the position of the rear mirror (22), and the double rows of locking blocks (14) constrain and limit the rear mirror (22).
6. The novel deep-sea tunnel speaker light according to claim 1, characterized in that: The slot (12) is provided with support slots (13) at both ends, and the support slots (13) are circular slots.
7. A novel deep-sea tunnel speaker light according to claim 1, characterized in that: The bracket (4) is a U-shaped bracket with fastening rings (41) on the inner side of the top of both sides. The fastening rings (41) are made of polytetrafluoroethylene with a friction coefficient of 0.05 to 0.
15. The fastening rings (41) are frictionally connected to the inner wall of the bracket groove (13).
8. A novel deep-sea tunnel speaker light according to claim 3, characterized in that: The control box (9) is equipped with a rechargeable battery (10) that is electrically connected to the control motherboard (91). The control motherboard (91) is equipped with a charging port (16) that extends to the side of the control box (9) away from the lens group (2). The control motherboard (91) is equipped with a power button (3) on the side facing the lens group (2). The power button (3) extends out from the front of the lamp holder (1).
9. A novel deep-sea tunnel speaker light according to claim 4, characterized in that: The control motherboard (91) is also provided with a function button (15) on the side away from the lens group (2), and the function button (15) extends out from the back of the control box (9).
10. A novel deep-sea tunnel speaker light according to claim 1, characterized in that: The rearview mirror (22) has a logo area (23) in the middle.