Lamp effect component of a sound equipment and sound equipment
By using light-shielding partitions to isolate the installation space in the audio lighting components and providing a separate light source for each lens, combined with optical patterns and light-shielding layer design, the problem of light leakage between lenses is solved, achieving a stronger sense of layering and aesthetic effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN XINYANG CHUANGZHI TECHNOLOGY CO LTD
- Filing Date
- 2025-05-21
- Publication Date
- 2026-07-03
AI Technical Summary
In existing audio lighting components, light crosstalk is prone to occur between the light lenses, resulting in insufficient layering and a poor user experience.
By setting up light-shielding partitions in the lighting components of the speakers to isolate adjacent installation spaces and providing a separate light source for each lens, combined with the design of different optical patterns and light-shielding layers, cross-lighting between lighting effects is avoided, thus improving the sense of layering.
It effectively avoids light leakage between light effects, enhances the layering and aesthetics of the light effects, and provides richer light effect performance.
Smart Images

Figure CN224459923U_ABST
Abstract
Description
Technical Field
[0001] Some embodiments of this application relate to the field of audio technology, and in particular to an audio lighting component and an audio system. Background Technology
[0002] Soundbars, also known as "echo walls," are popular among users due to their ease of use and are considered ideal audio products for use with televisions.
[0003] To create a musical environment, speakers use lighting effects to enhance the atmosphere. Speakers typically use specially shaped light mirrors to display these effects. When there are many light mirrors, light crosstalk can occur between them, especially when the patterns and / or colors displayed by the light mirrors are different. This makes the lighting effects less distinct and results in a poor user experience. Utility Model Content
[0004] In order to solve the above-mentioned technical problems, or at least partially solve the above-mentioned technical problems, some embodiments of this application provide a lighting effect component and a speaker for a sound system, so as to avoid light crosstalk between the light mirrors and improve the sense of layering while displaying the lighting effect.
[0005] A first aspect of some embodiments of this application provides a lighting effect component for an audio system, including:
[0006] The mounting housing has at least two mounting spaces, with adjacent mounting spaces separated by a light-shielding partition.
[0007] At least two lamp mirrors are provided, with each lamp mirror installed in one of the mounting spaces;
[0008] A lamp plate is disposed inside the mounting housing and connected to the mounting housing. The lamp plate is provided with lamp elements corresponding to the lamp mirror, and the lamp elements are used to provide a light source for the lamp mirror.
[0009] By separating two adjacent installation spaces with a light-shielding partition, and by providing a light source for each lamp mirror with a separate light component, the lighting effects produced by each lamp mirror are separated, avoiding cross-contamination and mutual interference. This allows at least two lighting effects to work together, enhancing the sense of depth.
[0010] In some embodiments, at least one of the mounting spaces is configured as a mounting hole, the lamp mirror is disposed within the mounting hole, and the lamp mirror is configured as a cover-like structure having an inner cavity and being annular.
[0011] The lamp mirror is positioned and limited by the mounting holes, and the lamp mirror forms a cover-like structure that can be placed on the lamp component. In this way, the light emitted by the lamp component enters the inner cavity of the lamp mirror, improving the light utilization rate.
[0012] In some embodiments, at least one of the installation spaces is configured as a groove, the lamp mirror is disposed in the groove, and the bottom plate of the groove is provided with a light-transmitting hole corresponding to the lamp element.
[0013] The groove is used to limit and position the lamp lens, and the light emitted by the lamp enters the groove through the light hole and then shines out through the lamp lens. The side wall of the groove can block the light emitted by the lamp, so as to prevent the light emitted by the lamp from affecting the other lamp lenses.
[0014] In some embodiments, the light-emitting surfaces of at least two of the lamp mirrors have optical patterns, and the optical patterns of at least two of the lamp mirrors may be the same or different.
[0015] By setting optical patterns, the lighting effects of lamp mirrors can be diversified, enhancing their aesthetics. Different optical patterns in lamp mirrors can produce different lighting effects, thus creating a stronger sense of layering between them. Even when the optical patterns of lamp mirrors are the same, variations in the color, frequency, and brightness of the lamp components can also achieve a strong sense of layering in lighting effects.
[0016] In some embodiments, at least one of the light-emitting surfaces of the lamp mirror is provided with a plurality of dot-shaped first light-shielding layers.
[0017] Due to the first light-shielding layer on the light-emitting surface of the lamp mirror, when the lamp is illuminated, the area with the first light-shielding layer appears black, while the area without the first light-shielding layer is transparent, thus presenting a star-like pattern.
[0018] In some embodiments, the lamp mirror includes a second lamp mirror and two first lamp mirrors, the second lamp mirror having two clearance holes, and the second lamp mirror being sleeved on the outside of the first lamp mirror through the clearance holes;
[0019] In the arrangement direction of the two clearance holes, the light-emitting surface of the second lamp mirror has a first region at both ends and a second region located between the two clearance holes. The first region and the second region are located on the same straight line. The light-emitting surface is provided with a second light-shielding layer in the first region and the second region, and the remaining region is provided with the first light-shielding layer.
[0020] By setting the first and second light-shielding layers, the first and second areas are opaque and appear black under the illumination of the lamp, while the remaining areas show a scattered star pattern, thus making the light-emitting surface of the second lamp mirror present a "butterfly" pattern, improving its aesthetics.
[0021] In some embodiments, the installation space includes two first installation spaces and one second installation space, the second installation space is arranged around the two first installation spaces, the second lamp mirror is disposed in the second installation space, and the two first lamp mirrors are respectively disposed in the two first installation spaces.
[0022] The second installation space is arranged around the two first installation spaces, and the two first light mirrors are located inside the second light mirror. Thus, the two first light mirrors and the second light mirror together present a pattern resembling a "mask", which improves the aesthetics.
[0023] In some embodiments, the lamp mirror is detachably connected to the mounting housing.
[0024] By making the lamp mirror detachable, it is easy to install and remove the lamp mirror.
[0025] In some embodiments, the lighting effect assembly of the audio system further includes a decorative mesh cover, which is connected to the mounting housing and located outside the mounting housing and covers the lamp mirror.
[0026] By setting a decorative mesh cover on the outside of the mounting housing, the lamp mirror can be covered and hidden, thus achieving a decorative effect.
[0027] A second aspect of some embodiments of this application provides an audio system including a lighting effect component of the audio system provided in the first aspect, wherein the mounting housing constitutes the outer peripheral housing of the audio system.
[0028] This speaker features the beneficial effects of a speaker lighting component. Attached Figure Description
[0029] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.
[0030] To more clearly illustrate the technical solutions in the embodiments of this application or related technologies, the accompanying drawings used in the description of the embodiments or related technologies will be briefly introduced below. Obviously, those skilled in the art can obtain other drawings based on these drawings without creative effort.
[0031] Figure 1 This is a schematic diagram of the structure of the lighting effect component of the sound system described in some embodiments of this application;
[0032] Figure 2 This is a disassembly diagram of the lighting effect component of the audio system described in some embodiments of this application;
[0033] Figure 3 This is a schematic diagram of the lighting components described in some embodiments of this application;
[0034] Figure 4 This is a schematic diagram of the lighting effect of the audio lighting component described in some embodiments of this application;
[0035] Figure 5 This is a schematic diagram of the mounting shell structure described in some embodiments of this application;
[0036] Figure 6 This is a side view schematic diagram of the lighting effect component of the audio system described in some embodiments of this application;
[0037] Figure 7 for Figure 6 Schematic sectional view along the middle AA direction;
[0038] Figure 8 for Figure 7 A magnified view of a portion of point C in the middle;
[0039] Figure 9 for Figure 6 Cross-sectional view along the middle BB direction;
[0040] Figure 10 for Figure 9 A magnified view of a portion of point D in the middle;
[0041] Figure 11 This is a schematic diagram of the structure of the sound system described in some embodiments of this application.
[0042] in,
[0043] 1. Mounting housing; 11. Light-shielding partition; 12. Mounting hole; 13. Groove; 13a. Light-transmitting hole;
[0044] 2. First light mirror;
[0045] 3. Second mirror; 3a. First area; 3b. Second area; 31. Clearance hole;
[0046] 4. Light panel; 41. Light fixture;
[0047] 5. Decorative mesh cover. Detailed Implementation
[0048] To better understand the above-mentioned objectives, features, and advantages of this application, the solution of this application will be further described below. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.
[0049] Many specific details are set forth in the following description in order to provide a full understanding of this application, but this application may also be implemented in other ways different from those described herein; obviously, the embodiments in the specification are only some embodiments of this application, and not all embodiments.
[0050] like Figures 1 to 10 As shown, this application provides a lighting effect component for a speaker, mainly used to create an atmosphere by changing lighting effects with the music when the speaker is playing music.
[0051] In some embodiments, the lighting effect assembly of the speaker includes a mounting housing 1 having at least two mounting spaces, with adjacent mounting spaces separated by a light-shielding partition 11.
[0052] In some embodiments, the lighting effect assembly of the speaker further includes a lamp mirror, wherein at least two lamp mirrors are provided, each lamp mirror being installed in an installation space.
[0053] In some embodiments, the lighting effect assembly of the speaker further includes a lamp plate 4, which is disposed inside the mounting housing 1 and connected to the mounting housing 1. The lamp plate 4 is provided with a lamp element 41 corresponding to the lamp mirror, and the lamp element 41 is used to provide a light source for the lamp mirror.
[0054] Understandably, by separating two adjacent installation spaces with a light-shielding partition 11, and by providing a light source for each lamp mirror with a separate lamp element 41, the lighting effects produced by each lamp mirror are separated, avoiding cross-contamination and mutual interference. This allows at least two lighting effects to work together, enhancing the sense of layering.
[0055] It should be noted that the aforementioned light-shielding partition 11 can be configured to abut against the lamp panel 4, thereby completely separating the two installation spaces and further improving the anti-light crosstalk effect. Alternatively, a buffer light-shielding component, such as black EVA cotton, can be set between the light-shielding partition 11 and the lamp panel 4 to block light and provide a buffering effect.
[0056] In some embodiments, refer to Figure 1 The aforementioned mounting shell 1 has a C-shaped structure, thus forming a receiving cavity. The aforementioned lamp panel 4 is located inside the receiving cavity. In this way, the space of the mounting shell 1 itself is used to install the lamp panel 4. The lamp panel 4 and the mounting shell 1 can be assembled together and then assembled with other structures.
[0057] In some embodiments, refer to Figure 1 and Figure 2 The speaker also includes a decorative mesh cover 5, which is connected to the mounting housing 1 and located on the outside of the mounting housing 1, covering the lamp mirror. The decorative mesh cover 5 can be made of iron mesh, plastic mesh, or cloth mesh.
[0058] In some embodiments, refer to Figure 1 and Figure 2The aforementioned lamp component 41 can be selected as an RGB LED. At this time, the lamp board 4 is a PCB board, and the RGB LED is installed on the PCB board. The RGB LED can be controlled by the IC bus (Inter Integrated Circuit Bus) control system to light up in accordance with the rhythm of the music, such as changes in color, brightness, and frequency, thereby achieving the lighting effect.
[0059] Furthermore, for each lamp mirror, multiple lamp elements 41 are provided, and multiple lamp elements 41 together illuminate one lamp mirror. The multiple lamp elements 41 can be arranged according to the shape of the lamp mirror. For example, when the lamp mirror has a ring structure, multiple lamp elements 41 are arranged at intervals along the circumference of the lamp mirror. Or, for example, when the lamp mirror has a figure-eight structure, multiple lamp elements 41 are arranged at intervals along the circumference of the lamp mirror.
[0060] In addition, it should be noted that in order to ensure that there are no shadows on the lamp mirror (uniform brightness), the distance between the lamps D (the distance between two adjacent lamps 41) and the distance H between the lamp mirror and the lamps 41 need to be considered.
[0061] Reference Figure 3 In order to make the light on the lamp mirror uniform, the light overlap area (P) of two adjacent lamps 41 needs to cover the direct center point Q of the lamp 41. This is because the light intensity of the direct center point Q of the lamp 41 is the greatest. Only when the light intensity near the direct center point Q overlaps can the light intensity be close to the light intensity of the direct center point Q, so as to achieve uniform light intensity and no lamp shadows at all positions on the lamp mirror.
[0062] Therefore, the length L of the long side of the overlapping area P needs to be greater than the spacing D between the lamps, where L = H * tan(α / 2), and D ≤ H * tan(α / 2), where α is the viewing angle of the lamp. D is less than or equal to 22.5 mm, and a larger spacing between lamps 41 results in fewer lamps 41, which helps reduce costs. However, if D is greater than 22.5 mm, it is difficult to achieve uniform brightness in the lamp mirror; therefore, D is preferably 22.5 mm.
[0063] A value of H greater than or equal to 25mm is preferable. A smaller H value results in a smaller spacing, allowing for a smaller product size, which helps reduce material usage and lower costs. However, if H is less than 25mm, the light element 41 becomes more visible, leading to more shadows. This necessitates increasing the density of the light elements 41 to achieve uniform brightness and shadow-free illumination, thus increasing the cost. Therefore, H is preferably 25mm.
[0064] In some embodiments, the light-emitting surfaces of at least two lamp mirrors have optical patterns, and the optical patterns of the two mirrors may be the same or different.
[0065] Understandably, the optical patterns can diversify the lighting effects of lamps and enhance their aesthetics. Different optical patterns in lamps can produce different lighting effects, thus creating a stronger sense of depth between them. Conversely, when all lamps have the same optical pattern, variations in the color, frequency, and brightness of the lamp components can also achieve a strong sense of depth in the lighting effects.
[0066] Among them, the aforementioned optical patterns can be designed as a scattered star pattern, or various patterns such as flowers, birds, mountains and rivers.
[0067] For example, in one specific implementation, refer to Figure 4 At least one light-emitting surface of the lamp mirror has multiple dot-shaped first light-shielding layers.
[0068] Understandably, due to the setting of the first light-shielding layer on the light-emitting surface of the lamp mirror, when the lamp 41 illuminates, the area with the first light-shielding layer appears black, while the area without the first light-shielding layer is transparent, thus presenting a star-like pattern.
[0069] The first light-shielding layer is either a black ink layer or a light-shielding film. That is, the first light-shielding layer can be formed by spraying black ink onto the light-emitting surface of the lamp mirror, or it can be formed through a screen printing process. Alternatively, it can be formed by bonding a light-shielding film.
[0070] It should be noted that the shape of the first light-shielding layer can be regular or irregular, and the area of the first light-shielding layer can be set according to actual needs, without specific restrictions.
[0071] Specifically, refer to Figure 2 and Figure 4 The lamp mirror includes a second lamp mirror 3 and two first lamp mirrors 2. The second lamp mirror 3 has two clearance holes 31 and is fitted over the first lamp mirrors 2 through the clearance holes 31.
[0072] When the first lamp mirror 2 and the second lamp mirror 3 are installed on the mounting housing 1, the second lamp mirror 3 surrounds the two first lamp mirrors 2. The two first lamp mirrors 2 are exposed through the two clearance holes 31, and the two first lamp mirrors 2 are also separated by the light-shielding partition 11, so that the lighting effects formed by the second lamp mirror 3 and the two first lamp mirrors 2 do not interfere with each other, ensuring the sense of layering of the lighting effects.
[0073] In the arrangement direction of the two clearance holes 31, the light-emitting surface of the second lamp mirror 3 has a first region 3a at both ends and a second region 3b located between the two clearance holes 31. The first region 3a and the second region 3b are on the same straight line. A second light-shielding layer is provided on both the first region 3a and the second region 3b of the light-emitting surface, and the aforementioned first light-shielding layer is provided on the remaining regions. The arrangement direction of the two clearance holes 31 is as follows: Figure 4in the ab direction.
[0074] Understandably, the second light mirror 3 is presented as an "8" - shaped structure or a "day" - shaped structure. Under the irradiation of the lamp member 41, the first region 3a and the second region 3b are opaque and presented as black, while the remaining regions present a pattern of scattered dots, so that the light - emitting surface of the second light mirror 3 presents a pattern similar to a "butterfly", improving the aesthetics. Moreover, with the changes in the color, frequency, brightness, etc. of the lamp member 41, a vivid and lively "butterfly" pattern is presented.
[0075] Among them, in this case, two first light mirrors 2 are provided. The two first light mirrors 2 respectively correspond to two avoidance holes 31 and are exposed by the avoidance holes 31. Thus, the first light mirrors 2 present their own optical patterns under the irradiation of the lamp member 41, and the two first light mirrors 2 are located inside the second light mirror 3. Therefore, the two first light mirrors 2 and the second light mirror 3 cooperate to present a pattern similar to a "mask", improving the aesthetics.
[0076] It should be noted that patterns can also be formed on the first light mirror 2 by spraying ink. The ink can be black, green, red, etc., and unique optical patterns are formed by the irradiation of the lamp member 41. <{0000184}> Exemplarily, referring to Figure 4 , multiple lamp rings are formed on the first light mirror 2 by spraying ink. The multiple lamp rings intersect with each other, and some regions are shielded by the ink, so that an approximate flower - ring pattern is presented when irradiated by the lamp member 41.
[0078] In this case, the above - mentioned installation space includes two first installation spaces and a second installation space. The second installation space surrounds the two first installation spaces. The second light mirror 3 is arranged in the second installation space, and the two first light mirrors 2 are respectively arranged in the two first installation spaces.
[0079] In some embodiments, referring to Figures 5 to 10 , at least one of the installation spaces is set as an installation hole 12. The light mirror is arranged in the installation hole 12, and the light mirror is set as a lid - shaped structure with an inner cavity and in a ring shape.
[0080] Understandably, the light mirror is in a ring - shaped structure and is installed in the installation hole 12. The positioning and limiting of the light mirror can be achieved through the installation hole, and the light mirror forms a lid - shaped structure that can cover the lamp member 41. In this way, the light emitted by the lamp member 41 enters the inner cavity of the light mirror, improving the utilization rate of light. Moreover, through the blocking of the light - shielding partition 11, the light emitted by the lamp member 41 can be prevented from affecting the other light mirrors.
[0081] Of course, in other embodiments, when the mounting space is the mounting hole 12, the lamp mirror can also be configured as a circular structure, in which case the lamp mirror still covers the lamp element 41. Alternatively, when the lamp mirror is an annular structure, the mounting space can be configured as an annular groove or an annular through hole, in which case the lamp mirror is installed in the annular groove or annular through hole. When the mounting space is an annular groove, a light-passing hole is provided on the bottom plate of the annular groove to allow the light emitted by the lamp element 41 to pass through, thus avoiding blocking the light emitted by the lamp element 41.
[0082] In addition, the lamp mirror located in the mounting hole 12 can be detachably connected to the mounting housing 1.
[0083] For example, in one specific implementation, the lamp mirror has an ear plate located on the side of the mounting housing 1 facing the lamp panel. The ear plate is fixed to the mounting housing 1 by screws, and the mounting housing 1 is provided with threaded holes that mate with the screws.
[0084] Understandably, the lamp lens is located inside the mounting hole, which allows for the positioning and limiting of the lamp lens. It is also detachably fixed to the mounting housing 1 by the ear plate located on the side of the mounting housing 1 facing the lamp board. This facilitates the installation and removal of the lamp lens and also makes it easy to change the lighting effect by replacing the lamp lens later. In addition, the screws are hidden inside the mounting housing 1 and cannot be seen from the outside of the mounting housing 1, which improves the aesthetics.
[0085] Of course, the aforementioned lamp mirror can also be fixed to the mounting housing 1 in other ways, such as by adhesive bonding.
[0086] In some embodiments, refer to Figures 5 to 10 At least one of the installation spaces is set as a groove 13, and the lamp mirror is set in the groove 13. A light-transmitting hole 13a is provided on the bottom plate of the groove 13 corresponding to the lamp 41.
[0087] Understandably, the light-shielding partition 11 forms one of the side walls of the groove 13. The lamp mirror is disposed in the groove 13. The groove can limit and position the lamp mirror, and allow the light emitted by the lamp 41 to enter the groove 13 through the light-transmitting hole 13a and then be emitted through the lamp mirror. The side wall of the groove 13 can block the light emitted by the lamp 41, preventing the light emitted by the lamp 41 from affecting the other lamp mirrors.
[0088] In addition, a light-transmitting hole 13a is provided on the bottom plate of the groove, so that the bottom plate of the groove 13 forms a hollow structure. This can avoid blocking the light of the lamp 41 while ensuring the structural strength of the bottom plate, thereby ensuring the structural strength of the mounting shell 1.
[0089] The mounting shell 1 can be injection molded, so that the bottom plate of the groove 13 can be formed into a hollow structure during molding, and the lamps 41 on the lamp plate 4 can be arranged according to the holes of the hollow structure.
[0090] It should be noted that the bottom plate of the groove 13 can be configured to abut against the lamp plate 4. In this case, the lamp element 41 on the lamp plate 4 extends into the light-transmitting hole 13a, or even into the groove 13, thus allowing all the light emitted by the lamp element 41 to enter the groove 13. Alternatively, a buffer light-shielding component, such as black EVA cotton, can be provided between the bottom plate and the lamp plate 4 to block light and provide a buffering effect.
[0091] In addition, the lamp mirror set in the groove is detachably connected to the mounting housing 1.
[0092] For example, in one specific implementation, the lamp lens is provided with a threaded hole, and a screw passes through the mounting housing 1 and connects to the threaded hole to install the lamp lens. The screw can pass through the bottom plate of the groove 13 or through a connecting post provided on the bottom plate of the groove.
[0093] Understandably, the lamp lens is located in the groove and fixed with screws, which facilitates the installation and removal of the lamp lens and also allows for changes in lighting effects by replacing the lamp lens later. Moreover, the screws are hidden inside the mounting housing 1 and cannot be seen from the outside of the mounting housing 1, which improves the aesthetics.
[0094] In some embodiments, refer to Figures 1 to 10 The lighting effect component of the audio system includes a mounting housing 1, which has a first mounting space and a second mounting space surrounding the first mounting space, and the first mounting space and the second mounting space are separated by a light-shielding partition 11.
[0095] The lighting components of the speaker also include a first lamp mirror 2, which is installed in a first mounting space.
[0096] The lighting components of the speaker also include a second lamp mirror 3, which is installed in a second mounting space.
[0097] The lighting effect assembly of the speaker also includes a light panel 4, which is disposed inside the mounting housing 1 and connected to the mounting housing 1. The light panel 4 is provided with a first light element that provides a light source for the first light mirror 2 and a second light element that provides a light source for the second light mirror 3.
[0098] The first and second light components are selected as RGB LEDs.
[0099] There are two first lamp mirrors 2, corresponding to two first mounting spaces, and the two first lamp mirrors are installed in two second mounting spaces respectively. There is one second lamp mirror 3, corresponding to one second mounting space.
[0100] Among them, the above-mentioned first installation space is set as the installation hole 12. The first lamp mirror 2 is set as a cap-shaped structure with an inner cavity and in a ring shape, and the first lamp mirror 2 covers the lamp part 41.
[0101] Among them, the above-mentioned first lamp mirror 2 is detachably connected to the installation shell 1. The first lamp mirror 2 has ear plates, and the ear plates are located on the side of the installation shell 1 facing the lamp board 4. The ear plates are fixed to the installation shell 1 by screws. At this time, threaded holes matching the screws are provided on the installation shell 1.
[0102] Among them, the above-mentioned second installation space is set as the groove 13, and a light-transmitting hole 13a corresponding to the lamp part 41 is provided on the bottom plate of the groove 13.
[0103] The above-mentioned second lamp mirror 3 is detachably connected to the installation shell 1. Threaded holes are provided on the second lamp mirror 3, and screws pass through the installation shell 1 and are connected to the threaded holes to realize the installation of the second lamp mirror 3.
[0104] Among them, the light-emitting surfaces of the above-mentioned first lamp mirror 2 and the second lamp mirror 3 both have optical patterns, and the optical patterns of the two are different.
[0105] Specifically, a plurality of dot-shaped first light-shielding layers are scattered on the light-emitting surface of the second lamp mirror 3. There are two avoidance holes 31 on the second lamp mirror 3, and the second lamp mirror 3 is sleeved outside the first lamp mirror 2 through the avoidance holes 31.
[0106] In the arrangement direction of the two avoidance holes 31, the light-emitting surface of the second lamp mirror 3 has first regions 3a at both ends, and a second region 3b located between the two avoidance holes 31. The first region 3a and the second region 3b are on the same straight line. Second light-shielding layers are provided on the light-emitting surface in the first region 3a and the second region 3b, and the above-mentioned first light-shielding layers are provided in the remaining regions.
[0107] The second lamp mirror 3 presents an "eight" - shaped structure or a "day" - shaped structure. Under the irradiation of the lamp part 41, the first region 3a and the second region 3b are opaque and present black, while the remaining regions present a pattern of scattered dots, so that the light-emitting surface of the second lamp mirror 3 presents a pattern similar to a "butterfly", improving the aesthetics.
[0108] In this case, the two first lamp mirrors 2 are respectively exposed by the two avoidance holes 31. Thus, the first lamp mirror 2 presents its own optical pattern under the irradiation of the lamp part 41, and the two first lamp mirrors 2 are located inside the second lamp mirror 3. Therefore, the cooperation of the two first lamp mirrors 2 and the second lamp mirror 3 presents a pattern similar to a "mask", improving the aesthetics.
[0109] Patterns can also be formed on the above-mentioned first lamp mirror 2 by means of spraying ink. The ink can be black, green, red, etc., and a unique optical pattern is formed by the irradiation of the first lamp part 41.
[0110] This application also provides a speaker, including the lighting effect component of the speaker in the above embodiments, wherein the mounting housing 1 constitutes at least a portion of the outer peripheral housing of the speaker.
[0111] For example, in one specific implementation, refer to Figure 11 Mounting housing 1 is part of the outer casing of the speaker, and mounting housing 1 and the rest of the enclosure form a space for accommodating the speaker. Of course, mounting housing 1 can also be the entire outer casing of the speaker, in which case the speaker is located within the space enclosed by mounting housing 1.
[0112] It should be noted that, in this document, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.
[0113] The above description is merely a specific embodiment of this application, enabling those skilled in the art to understand or implement this application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of this application. Therefore, this application is not to be limited to the embodiments described herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims
1. A light effect assembly of a sound system, characterized in that, include: The mounting housing has at least two mounting spaces, with adjacent mounting spaces separated by a light-shielding partition. At least two lamp mirrors are provided, each lamp mirror being installed in one of the installation spaces; at least one lamp mirror has a plurality of dot-shaped first light-shielding layers distributed on its light-emitting surface; the lamp mirror includes a second lamp mirror and two first lamp mirrors, the second lamp mirror having two clearance holes, and the second lamp mirror being fitted over the first lamp mirrors through the clearance holes; in the arrangement direction of the two clearance holes, the light-emitting surface of the second lamp mirror has a first region at both ends and a second region located between the two clearance holes, the first region and the second region being located on the same straight line, the light-emitting surface having a second light-shielding layer in both the first region and the second region, and the remaining region having a first light-shielding layer; A lamp plate is disposed inside the mounting housing and connected to the mounting housing. The lamp plate is provided with lamp elements corresponding to the lamp mirror, and the lamp elements are used to provide a light source for the lamp mirror.
2. The lighting effect component for the sound system according to claim 1, characterized in that, At least one of the mounting spaces is configured as a mounting hole, the lamp mirror is disposed within the mounting hole, and the lamp mirror is configured as a cap-like structure with an inner cavity and annular shape.
3. The light effect assembly of a soundbar of claim 1, wherein, At least one of the installation spaces is configured as a groove, the lamp mirror is disposed in the groove, and the bottom plate of the groove is provided with a light-transmitting hole corresponding to the lamp component.
4. The light effect assembly of claim 1, wherein, At least two of the lamp mirrors have optical patterns on their light-emitting surfaces, and the optical patterns of at least two of the lamp mirrors are the same or different.
5. The light effect assembly of a soundbar of claim 1, wherein, The installation space includes two first installation spaces and one second installation space. The second installation space is arranged around the two first installation spaces. The second lamp mirror is arranged in the second installation space. The two first lamp mirrors are respectively arranged in the two first installation spaces.
6. The light effect assembly of a soundbar of claim 1, wherein, The lamp mirror is detachably connected to the mounting housing.
7. The light effect assembly of a soundbar of claim 1, wherein, The lighting effect component of the speaker also includes a decorative mesh cover, which is connected to the mounting housing and located on the outside of the mounting housing, covering the lamp mirror.
8. A sound device, characterized by comprising: The lighting effect assembly of the speaker as described in any one of claims 1-7 is included, wherein the mounting housing constitutes the outer peripheral housing of the speaker.