Magnetic combination sound

With its magnetic combination speaker design, the main speaker and the auxiliary speaker can be quickly connected, solving the problems of insufficient sound field, large space occupation, and cumbersome mechanical connection of traditional speakers. This achieves the effects of quick assembly and disassembly, space saving, and improved sound quality.

CN224473385UActive Publication Date: 2026-07-07YAGANG ELECTRONICS (HUIZHOU) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YAGANG ELECTRONICS (HUIZHOU) CO LTD
Filing Date
2025-08-04
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing long, rectangular soundbars are insufficient in terms of sound field coverage and sound layering. Furthermore, separate soundbars take up a lot of space, and their mechanical connection methods are cumbersome and prone to wear.

Method used

Featuring a magnetic combination design, the main and auxiliary speakers of the Sound Blaster speaker can be quickly assembled and disassembled through magnetic connection and magnetic engagement parts. Combined with the support base and wall mount, it provides multiple installation methods to create a stereo sound field environment.

Benefits of technology

It enables quick assembly and disassembly of the speakers, saves space, improves the stereo effect and stability of the sound, avoids wear and tear on mechanical connections, enhances the user experience and the overall compactness of the speaker structure.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of magnetic attraction combined sound, comprising: sound boss sound body and at least one sub-sound, the top surface of sound boss sound body is provided with magnetic attraction connecting part;The bottom of sub-sound is provided with the magnetic attraction cooperation part compatible with magnetic attraction connecting part;Sound boss sound body and sub-sound, through the magnetic attraction of magnetic attraction connecting part and magnetic attraction cooperation part form detachable connection.Such, through magnetic attraction connecting part cooperation magnetic attraction cooperation part, realize the magnetic attraction combination between sound boss sound body and sub-sound, to realize the quick combination and split between sound boss sound body and sub-sound, solved the problem that traditional mechanical connection installs and dismounts complicated, easy to wear;Meanwhile, the combination of sound boss sound body and sub-sound can build more three-dimensional sound field environment, improve use experience;In addition, it can also reduce the space occupied by sub-sound, so that overall structure is more compact.
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Description

Technical Field

[0001] This utility model relates to the field of audio equipment technology, and in particular to a magnetic combination speaker. Background Technology

[0002] In home entertainment settings, the rectangular soundbar, with its sleek design and excellent sound quality, has become the preferred choice for many users seeking to enhance their movie-watching and music-listening experience. However, as users' pursuit of immersive sound effects continues to rise, the limitations of a single rectangular soundbar in terms of sound field coverage and sound layering are becoming increasingly apparent. Many users hope to add additional speaker units to create a more three-dimensional sound field environment and enhance the immersiveness of their audio-visual experience.

[0003] However, existing speakers are usually designed as separate units, meaning that multiple speakers are placed directly on the table, which takes up extra space. Using mechanical connections such as screws for assembly and disassembly is cumbersome and lacks flexibility.

[0004] In view of the above, a magnetic combination speaker is proposed, which can improve the convenience of connection and make it easier to assemble and disassemble. Utility Model Content

[0005] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a magnetic combination speaker, which can improve the convenience of connection and make it easier to assemble and disassemble.

[0006] The objective of this utility model is achieved through the following technical solution:

[0007] A magnetically attached modular speaker includes: a soundbar speaker body and at least one auxiliary speaker. The top surface of the soundbar speaker body is provided with a magnetically attached connecting part; the bottom of the auxiliary speaker is provided with a magnetically attached mating part adapted to the magnetically attached connecting part; the soundbar speaker body and the auxiliary speaker are detachably connected by the magnetic attraction between the magnetically attached connecting part and the magnetically attached mating part.

[0008] In one embodiment, a first magnetic element is provided on the magnetic connection portion, and a second magnetic element is provided on the magnetic mating portion, wherein the first magnetic element and the second magnetic element have opposite magnetic properties.

[0009] In one embodiment, the second magnetic element is a magnet.

[0010] In one embodiment, the Sound Blaster speaker body includes a Sound Blaster housing, two Sound Blaster end caps, and a Sound Blaster speaker. The Sound Blaster housing has a receiving cavity, the Sound Blaster speaker is installed in the receiving cavity, and the two Sound Blaster end caps are respectively installed on both ends of the Sound Blaster housing.

[0011] In one embodiment, the soundbar includes three speaker groups and two sound insulation blocks, with each sound insulation block disposed between any two of the speaker groups.

[0012] In one embodiment, a support base is provided at the bottom of the Sound Blaster end cap, and a silicone pad is provided at the bottom of the support base.

[0013] In one embodiment, the back of the Sound Blaster speaker body is provided with a wall-mounting buckle.

[0014] In one embodiment, the wall-mounted buckle has a receiving cavity, a locking hole, and a limiting groove. The locking hole and the limiting groove are respectively connected to the receiving cavity. One end of the limiting groove is connected to the locking hole, and the width of the limiting groove is smaller than the width of the locking hole.

[0015] In one embodiment, two secondary speakers are provided, with the two secondary speakers respectively located at both ends of the main body of the soundbar.

[0016] In one embodiment, the secondary speaker includes a secondary speaker housing, a secondary speaker loudspeaker, and a connection control module. The secondary speaker housing has a cavity, and the secondary speaker loudspeaker and the connection control module are both disposed within the cavity.

[0017] Compared with the prior art, the present invention has at least the following advantages:

[0018] 1. This utility model of a magnetic combination speaker system features a magnetic connection part on the main body of the soundbar speaker and a magnetic engagement part on the secondary speaker. The magnetic connection part and the magnetic engagement part work together to achieve a magnetic combination between the main body and the secondary speaker, enabling rapid assembly and disassembly of the soundbar speaker and the secondary speaker. This solves the problems of cumbersome assembly and disassembly and easy wear and tear associated with traditional mechanical connections. Furthermore, the combination of the main body and the secondary speaker creates a more three-dimensional sound field environment, improving the user experience. In addition, it reduces the space occupied by the secondary speaker, making the overall structure more compact.

[0019] 2. It adopts a dual-speaker symmetrical combination design, which can expand the sound field coverage and enhance the stereo and surround sound.

[0020] 3. By setting a support base and wall-mounting clips on the main body of the Sound Blaster speaker, multiple installation methods (desktop placement, wall mounting) can be achieved to adapt to different space requirements. At the same time, the secondary speaker can be installed on the main body of the Sound Blaster speaker by magnetic fixation, thereby further saving space. Attached Figure Description

[0021] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the embodiments will be briefly described below.

[0022] Figure 1 This is a schematic diagram of the structure of a magnetically attached combined speaker in one embodiment of the present invention;

[0023] Figure 2 for Figure 1 A schematic diagram of the exploded structure of the main body of the Sound Blaster speaker, a magnetic combination speaker.

[0024] Figure 3 for Figure 1 A schematic diagram of the back structure of the Sound Blaster speaker body in the magnetic combination speaker system.

[0025] Figure 4 for Figure 2 A cross-sectional structural diagram of the main body of the Sound Blaster speaker;

[0026] Figure 5 for Figure 2 A schematic diagram of the end cap structure of the Sound Blaster speaker body;

[0027] Figure 6 for Figure 1 A schematic diagram of the secondary sounder structure;

[0028] Figure 7 for Figure 6 A schematic diagram of the explosion structure of the secondary acoustic component;

[0029] Figure 8 for Figure 6 A schematic diagram of the structure of the secondary speaker housing and the limiting bracket in the middle; Detailed Implementation

[0030] To facilitate understanding of this utility model, a more comprehensive description of this utility model will be given below with reference to the accompanying drawings.

[0031] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 , Figure 7 and Figure 8 As shown, a magnetic combination speaker includes: a soundbar speaker body 100 and at least one auxiliary speaker 200. The top surface of the soundbar speaker body 100 is provided with a magnetic connection part; the bottom of the auxiliary speaker 200 is provided with a magnetic engagement part adapted to the magnetic connection part; the soundbar speaker body 100 and the auxiliary speaker 200 are detachably connected by the magnetic attraction between the magnetic connection part and the magnetic engagement part.

[0032] It should be noted that this utility model, by providing magnetic connecting parts and magnetic mating parts on the main body 100 and the auxiliary speaker 200 of the Sound Blaster speaker, respectively, allows the main body 100 and the auxiliary speaker 200 to be detachably connected through the magnetic attraction generated by the magnetic connecting parts and the magnetic mating parts. This enables the quick assembly and disassembly of the main body 100 and the auxiliary speaker 200, making operation convenient. At the same time, the auxiliary speaker 200 is installed on the top of the main body 100 of the Sound Blaster speaker, which solves the problem of large space occupation of traditional split speakers. After assembly, the space required for placement can be reduced, making the overall structure more compact. It also avoids the wear and loosening problems that occur with mechanical connections during long-term use, thus extending the service life of the speaker. Furthermore, the magnetic assembly method allows the small speakers to be mounted on top of the Sound Blaster speaker, facilitating installation and removal while enhancing sound quality. The main unit 100 of the Sound Blaster speaker has its sound-emitting section on the side, while the secondary speaker 200 has its sound-emitting section on the top. The combined sound from the side and top speakers creates a more immersive sound field. For example, the main unit 100, acting as the core audio processing and output unit, primarily handles mid-to-high frequency vocals and main audio output, while the secondary speaker 200 serves as an extended audio unit, mainly responsible for low-frequency enhancement and sound effect supplementation. This enhances the stereo sound effect and creates a more immersive, surround sound environment. Additionally, the secondary speaker 200 can be disassembled and used independently.

[0033] In one embodiment, a first magnetic element is provided on the magnetic connection portion, and a second magnetic element is provided on the magnetic mating portion. The first and second magnetic elements have opposite magnetic properties. This allows the first and second magnetic elements to attract each other when the Sound Blaster speaker body 100 and the secondary speaker 200 are brought close together, ensuring a stable connection. In this embodiment, the second magnetic element is a magnet, and the first magnetic element can be a magnet or an ferrous metal to facilitate magnetic mating. For example, the Sound Blaster speaker casing can be designed to be made of an ferrous metal, allowing the secondary speaker 200 to be attached to any position on the top of the Sound Blaster speaker body 100.

[0034] Please see Figure 2 , Figure 3 , Figure 4 and Figure 5As shown, in one embodiment, the Sound Blaster speaker body 100 includes a Sound Blaster housing 110, two Sound Blaster end caps 120, and a Sound Blaster speaker 130. The Sound Blaster housing 110 has a receiving cavity, and the Sound Blaster speaker 130 is installed within the receiving cavity. The two Sound Blaster end caps 120 are respectively installed on both ends of the Sound Blaster housing 110. Each Sound Blaster end cap 120 includes a Sound Blaster cover 121, a connecting protrusion 122, and a support base 123. One end of the connecting protrusion 122 is disposed on the Sound Blaster cover 121, and the other end of the connecting protrusion 122 extends away from the sound... The soundbar cover 121 extends in the direction of the connecting protrusion 122 and an abutment strip 122a is provided on the outer periphery of the connecting protrusion 122. The support base 123 is provided at the bottom of the soundbar cover 121. A limiting and fixing groove 122b is formed between the support base 123 and the connecting protrusion 122. After the soundbar end cap 120 and the soundbar housing 110 are assembled, the connecting protrusion 122 is built into the receiving cavity. The side wall of the soundbar housing 110 is partially received in the limiting and fixing groove 122b, and the abutment strip 122a abuts against the side wall of the soundbar housing 110. The soundbar speaker 130 is received in the receiving cavity.

[0035] It should be noted that by configuring the soundbar end cap 120 to include a soundbar cover 121, a connecting protrusion 122, and a support base 123, and by providing an abutment strip 122a on the outer periphery of the connecting protrusion 122, a limiting and fixing groove 122b is formed between the connecting protrusion 122 and the support base 123. When the soundbar end cap 120 is assembled with the soundbar housing 110, the side wall of the soundbar housing 110 is inserted into the limiting and fixing groove 122b, and the abutment strip 122a tightly abuts against the side wall of the soundbar housing 110, and the limiting and fixing groove 122b is used to secure the soundbar end cap 120 to the soundbar housing 110. 22b clamps the Sound Blaster housing 110, thereby making the connection between the Sound Blaster end cap 120 and the Sound Blaster housing 110 more secure and preventing loosening. In addition, the installation of the Sound Blaster end cap 120 involves directly inserting the side wall of the Sound Blaster housing 110 into the limiting and fixing groove 122b, which not only makes it easier to install and remove, but also improves the stability of the installation. Furthermore, the connecting protrusion 122 is built into the receiving cavity of the Sound Blaster housing 110, so that the edge of the Sound Blaster housing 110 abuts against the Sound Blaster cover 121, thereby further improving the sealing performance and reducing sound wave leakage.

[0036] Furthermore, in one embodiment, the connecting protrusion 122 has an annular structure, and multiple abutment strips 122a are provided on all four sides of the connecting protrusion 122, with the multiple abutment strips 122a on any one side arranged at equal intervals. The abutment strips 122a are evenly distributed, resulting in uniform pressure. At the same time, by providing abutment strips 122a on all four sides, the abutment strips 122a are tightly abutted against the four side walls of the soundbar housing 110, thereby increasing the contact area between the soundbar end cap 120 and the soundbar housing 110, which not only improves stability but also enhances sealing.

[0037] Furthermore, a guide surface is provided on the end of the abutment strip 122a away from the soundbar cover 121. The guide surface can guide the side wall of the soundbar housing 110 to slide into the limiting and fixing groove 122b, thereby facilitating the quick installation of the soundbar end cover 120, reducing assembly resistance, and improving assembly efficiency.

[0038] In one embodiment, the support base 123 is provided with a first threaded hole, and the soundbar housing 110 is also provided with a first mounting hole. The first threaded hole and the first mounting hole are aligned, and the first threaded hole and the first mounting hole are connected and fixed by a screw connector. After the first threaded hole and the first mounting hole are aligned, they are fixed by screwing with screws or other screw connectors, which can further prevent the soundbar end cap 120 from moving, thereby further improving the connection stability between the soundbar end cap 120 and the soundbar housing 110.

[0039] Furthermore, the connecting protrusion 122 is also provided with a mounting protrusion, which has a second threaded hole. The Sound Blaster housing 110 also has a second mounting hole. The second threaded hole aligns with the second mounting hole, and the two are connected and fixed by a screw. The mounting protrusion and the second threaded hole provide additional fixing points, further improving the stability of the structure. In this embodiment, the support base 123 has two first threaded holes. The center of the second threaded hole and the line connecting the centers of the two first threaded holes form a triangular layout. This triangular layout further improves installation stability and reduces the risk of loosening and displacement of the Sound Blaster end cap 120. At the same time, compared to using only screws for fixing, this not only reduces the use of screws but also improves installation stability.

[0040] In one embodiment, the Sound Blaster speaker body also includes a mesh cover 140, which is snapped into the Sound Blaster housing 110.

[0041] In one embodiment, the Sound Blaster loudspeaker 130 includes three speaker groups 131 and two sound-insulating blocks 132, with each sound-insulating block 132 disposed between any two speaker groups 131. The three speaker groups 131 are responsible for sound output in different frequency bands, achieving cross-frequency output and improving the clarity and expressiveness of each frequency band. Simultaneously, the sound-insulating blocks 132 disposed between any two speaker groups 131 can block the propagation of sound between different speaker groups 131, reducing sound crosstalk. Furthermore, the sound-insulating blocks 132 can effectively isolate sound between different speaker groups 131, preventing mutual interference that could lead to sound quality degradation and enhancing the layering of the sound effect. The sound insulation block 132 is made of EVA material. EVA is an ethylene-vinyl acetate copolymer, which is lightweight, soft, and elastic. It contains a large number of microbubbles, which can effectively absorb and block sound waves, thus providing excellent sound insulation performance. At the same time, this material also has a certain vibration damping effect, which can effectively block the propagation of sound between different speaker groups 131 and reduce sound crosstalk.

[0042] Furthermore, a silicone pad is provided at the bottom of the support base 123 of the Sound Blaster end cap 120. By providing the support base 123, the Sound Blaster housing 110 is prevented from directly contacting the desktop, avoiding water stains and other contaminants from seeping into the interior of the Sound Blaster housing 110 and damaging the internal secondary speaker 200. Furthermore, by providing the silicone pad, the elasticity and friction of the silicone pad increase the friction between the Sound Blaster speaker body 100 and the desktop, preventing slippage and absorbing vibration. In addition, it also prevents the Sound Blaster speaker body 100 from rubbing against the desktop.

[0043] Please see Figure 3 As shown, in one embodiment, a wall-mounting clip 150 is provided on the back of the Sound Blaster speaker body 100. The wall-mounting clip 150 can cooperate with hooks or other fasteners on a mounting surface such as a wall, allowing the Sound Blaster speaker body 100 to be suspended from a wall or other location. This increases the installation options for the Sound Blaster speaker body 100. Furthermore, the secondary speaker 200 and the Sound Blaster speaker body 100 have a magnetic connection, allowing the secondary speaker 200 to be directly fixed to the top of the Sound Blaster speaker body 100. This eliminates the need for the wall-mounting clip 150, thus saving desktop space.

[0044] Furthermore, the wall-mounted fastener 150 has a receiving cavity, a locking hole 151, and a limiting groove 152. The locking hole 151 and the limiting groove 152 are respectively connected to the receiving cavity. One end of the limiting groove 152 is connected to the locking hole 151, and the width of the limiting groove 152 is smaller than the width of the locking hole 151. During installation, the wall-mounted fixing post first enters the receiving cavity through the locking hole 151, and then slides into the limiting groove 152. Since the width of the limiting groove 152 is smaller than the width of the locking hole 151, the fixing post is restricted within the limiting groove 152 and cannot be easily detached. In this way, not only is installation convenient, but the wall-mounted installation is also more stable and reliable, preventing the soundbar speaker body 100 from falling off the wall.

[0045] In one embodiment, two secondary speakers 200 are provided, respectively located at both ends of the soundbar speaker body 100. The two secondary speakers 200 cooperate with the soundbar speaker body 100 to output sound from different locations, forming a more three-dimensional sound field and allowing the sound to be distributed more evenly in space, thereby improving the sound effect. Existing secondary speakers can be used directly, such as existing wireless Bluetooth speakers, or the secondary speakers in this embodiment can be used.

[0046] In one embodiment, the secondary speaker 200 includes a secondary speaker housing 210, a secondary speaker loudspeaker, and a connection control module 230. The secondary speaker housing 210 has a cavity, and both the secondary speaker loudspeaker and the connection control module 230 are housed within the cavity. The secondary speaker loudspeaker converts electrical signals into sound signals, and the connection control module 230 enables the secondary speaker 200 to connect to other devices and control signal transmission. The secondary speaker housing 210 protects the internal secondary speaker loudspeaker and connection control module 230 from damage caused by external dust, moisture, etc.

[0047] The secondary speaker 200 also includes a magnetic charging module 240 and a limiting bracket 250. The secondary speaker housing 210 is provided with a receiving cavity, and a battery placement area is provided inside the receiving cavity. Multiple positioning mounting parts 221 are provided around the battery placement area. The speaker of the secondary speaker 200 is installed in the receiving cavity. The magnetic charging module 240 includes a battery 241, which is placed on the battery placement area. The limiting bracket 250 is provided with a contoured limiting groove, which is fitted onto the battery 241. Multiple connecting and fixing holes are provided around the limiting bracket 250, and each connecting and fixing hole is aligned and connected with each positioning mounting part 221 to limit and fix the battery 241.

[0048] It should be noted that when assembling the battery 241, the battery 241 is first placed on the battery placement area, and the positioning mounting parts 221 around the battery placement area are used to limit the battery 241 in the X and Y directions. Then, the limiting bracket 250 is assembled, and the contoured limiting groove on the limiting bracket 250 is fitted onto the top of the battery 241, thereby limiting the battery 241 in the Z direction. In this way, the battery 241 can be fixed in the X, Y, and Z directions, thus providing a stable fixation and preventing the battery 241 from shifting due to vibration inside the speaker. This avoids poor contact caused by shaking of the battery 241, improves the service life of the speaker, and ultimately enhances the overall stability of the speaker structure.

[0049] In one embodiment, multiple positioning mounting components 221 include positioning posts and screw-in mounting posts, and multiple connecting fixing holes include positioning holes and screw-in holes. The positioning posts are inserted into the positioning holes, and the screw-in mounting posts and screw-in holes are connected by screws. By dividing the positioning mounting components 221 into positioning posts and screw-in mounting posts, and correspondingly dividing the connecting fixing holes into positioning holes and screw-in holes, preliminary positioning is achieved by first inserting the positioning posts into the positioning holes, which facilitates the subsequent connection and fixing of the screw-in mounting posts and screw-in holes by screws. This improves installation efficiency and makes the connection between the limiting bracket 250 and the secondary speaker housing 210 more secure, further enhancing the limiting and fixing effect on the battery 241 and preventing the limiting bracket 250 from loosening.

[0050] In one embodiment, the surface of the limiting bracket 250 is a thermally conductive insulating layer. This allows heat from the battery 241 to be quickly conducted away, aiding in heat dissipation from the battery 241. In this embodiment, the limiting bracket 250 can be made of thermally conductive silicone.

[0051] In one embodiment, the connection control module is located between the secondary speaker 200 and the magnetic charging module 240, and a circuit board support pillar is also provided within the accommodating cavity, on which the circuit board of the connection control module is mounted. This allows for an orderly layout of the components, a more compact structure, and reduced mutual interference. The circuit board support pillar also ensures the stable mounting of the circuit board. Furthermore, a Bluetooth module is built into the speaker to enable Bluetooth connectivity. The connection control module also includes buttons and various components, and a wired interface, allowing continued use when the battery is depleted.

[0052] It should also be noted that the secondary speaker in this invention is a Bluetooth speaker capable of magnetic charging. The secondary speaker and the main soundbar can be connected to the device separately, or a Bluetooth connection module can be integrated into the main soundbar, forming a connection with the secondary speaker via the soundbar's Bluetooth module, allowing the main soundbar to centrally control the secondary speaker. Furthermore, since the secondary speaker in this invention has magnetic charging functionality, a wireless charging device, such as a magnetic power bank, can also be integrated into the magnetic mating part of the soundbar's main body, thereby achieving magnetic charging.

[0053] In one embodiment, the magnetic charging module 240 further includes a magnet ring 242, a magnetic coil, an insulating pad 243, and a support block 244. The bottom of the accommodating cavity is provided with a magnet limiting groove and a coil limiting groove, the magnet limiting groove surrounding the coil limiting groove. The magnet ring 242 is disposed within the magnet limiting groove, the magnetic coil is disposed within the coil limiting groove, the insulating pad 243 covers the magnetic coil, and the support block 244 is located between the battery 241 and the insulating pad 243. That is, the first magnetic component is the magnet ring 242.

[0054] It should be noted that the magnetic charging module 240 enables the speaker to achieve magnetic wireless charging. The magnet limiting groove and the coil limiting groove limit the position of the magnet ring 242 and the magnetic coil, respectively, so that the position may shift during operation. An insulating pad 243 is set on the magnetic coil to provide insulation protection. In this embodiment, the insulating pad 243 is made of EVA (ethylene-vinyl acetate copolymer), which not only provides buffer protection and insulation protection for the magnetic coil, but also prevents external moisture from contaminating the magnetic coil. At the same time, a support block 244 is set between the magnetic coil and the battery 241 to support and buffer the battery 241, preventing damage to the battery 241 and ensuring the stability of the battery 241, thus protecting the battery 241.

[0055] In one embodiment, the secondary speaker housing 210 further includes a mounting bracket 260, which is mounted on the top of the accommodating cavity. The secondary speaker 200 is mounted on the mounting bracket. The mounting bracket provides a mounting carrier for the secondary speaker 200, thereby ensuring the stability of the secondary speaker 200 installation. The secondary speaker 200 includes a passive board and a horn. A first mounting hole and a second mounting hole are provided on the mounting bracket, and the passive board and the horn are respectively installed in the first mounting hole and the second mounting hole. A fixing post is also provided on the inner wall of the secondary speaker housing 210. The fixing post has a threaded hole, and the mounting bracket also has a fixing hole. The fixing hole and the threaded hole are aligned and connected and fixed by screws.

[0056] To further enhance the user experience, an LED light module is integrated into the bottom of the Sound Blaster speaker. This gives the magnetic speaker a lighting function, allowing it to be used as a light source when placed under a computer or television. The LED light module can also use colored LEDs, with the light synchronized with the sound effects to enhance the audio-visual experience. Specifically, the LED light module includes LED lights and an LED light circuit board. The LED lights are mounted on the LED light circuit board, which is connected to the control board of the Sound Blaster speaker body 100. A lighting control chip can also be added to the control board to achieve synchronization between the light and sound effects. The lighting mode can be adjusted independently via a button. This integration of sound and lighting functions increases functionality and improves ease of use.

[0057] The embodiments described above are merely illustrative of several implementations of this utility model, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.

Claims

1. A magnetically attached combination speaker, characterized in that, include: The main body of the Sound Blaster speaker has a magnetic connection part on its top surface; and At least one secondary speaker, the bottom of which is provided with a magnetic engagement part adapted to the magnetic connection part; The main body of the Sound Blaster speaker and the auxiliary speaker are detachably connected by the magnetic attraction between the magnetic connection part and the magnetic engagement part.

2. The magnetic combination speaker according to claim 1, characterized in that, The magnetic connection part is provided with a first magnetic element, and the magnetic mating part is provided with a second magnetic element, wherein the first magnetic element and the second magnetic element have opposite magnetic properties.

3. The magnetic combination speaker according to claim 2, characterized in that, The second magnetic component is a magnet.

4. The magnetic combination speaker according to claim 1, characterized in that, The Sound Blaster speaker body includes a Sound Blaster housing, two Sound Blaster end caps, and a Sound Blaster speaker. The Sound Blaster housing has a receiving cavity, the Sound Blaster speaker is installed in the receiving cavity, and the two Sound Blaster end caps are respectively installed on both ends of the Sound Blaster housing.

5. The magnetic combination speaker according to claim 4, characterized in that, The Sound Blaster loudspeaker includes three speaker groups and two sound insulation blocks, with each sound insulation block disposed between any two of the speaker groups.

6. The magnetic combination speaker according to claim 5, characterized in that, The bottom of the Sound Blaster end cap is provided with a support base, and the bottom of the support base is provided with a silicone pad.

7. The magnetic combination speaker according to claim 1, characterized in that, The Sound Blaster speaker has a wall-mounting clip on its back.

8. The magnetic combination speaker according to claim 7, characterized in that, The wall-mounted buckle has a receiving cavity, a locking hole, and a limiting groove. The locking hole and the limiting groove are respectively connected to the receiving cavity. One end of the limiting groove is connected to the locking hole, and the width of the limiting groove is smaller than the width of the locking hole.

9. The magnetic combination speaker according to any one of claims 1-8, characterized in that, There are two auxiliary speakers, which are respectively located at both ends of the main body of the soundbar.

10. The magnetic combination speaker according to claim 1, characterized in that, The secondary speaker includes a secondary speaker housing, a secondary speaker loudspeaker, and a connection control module. The secondary speaker housing has a cavity inside, and the secondary speaker loudspeaker and the connection control module are both disposed within the cavity.