A children's toy that can remotely pick up sound

By integrating a reflector and an audio receiver into children's toys, the problem of traditional toys being unable to simultaneously provide audio and visual feedback is solved. This achieves the integration of acoustic monitoring and optical observation, enhancing children's toy experience and making the toys more portable.

CN224484927UActive Publication Date: 2026-07-14YIGAO SCI & EDUCATION (GUANGDONG) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YIGAO SCI & EDUCATION (GUANGDONG) CO LTD
Filing Date
2025-07-23
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Traditional children's toys cannot simultaneously satisfy both visual and auditory functions; telescopes can only observe distant objects but cannot receive sound, resulting in poor sound reception.

Method used

Design a children's toy with a reflector and an audio receiver. The child can observe distant objects through a telescope and receive and process audio signals using the audio receiver. The audio signals are then transmitted to the child's ears via headphones, thus integrating acoustic monitoring and optical observation.

Benefits of technology

It enables children to clearly observe and hear distant objects, enhancing their enjoyment of toys, and the device is flip-up for easy portability.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of children's toy technology and discloses a children's toy capable of remote sound reception. It includes a fixedly connected outer shell and handle. A reflector and an audio receiver are installed at the front end of the outer shell, and the surface of the reflector is spherical. The telescope design allows children to easily and clearly observe distant objects. The audio receiver and reflector design allow for the reception of distant audio signals, which, after signal processing, are transmitted to the child's ears through headphones, easily capturing faint distant sounds. With the cooperation of the telescope and audio receiver, this device integrates acoustic monitoring and optical observation, simultaneously fulfilling audiovisual functions and enhancing children's play experience. The flip mechanism design allows the device to be rotated 90° when not in use, bringing the bottom of the control mechanism closer to the outer shell, reducing the device's size and making it easy to carry in a storage box.
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Description

Technical Field

[0001] This utility model relates to the field of children's toy technology, specifically to a children's toy that can remotely receive audio. Background Technology

[0002] Children's toys are products specifically designed or intended for use by children under the age of 14 for play and learning, with the core purpose of promoting children's physical and mental development through play.

[0003] Children's toys include those for intellectual development (puzzles, science experiment sets, etc.), motor skills (bicycles, balls, building blocks, etc.), social and emotional development (dolls, role-playing toys, etc.), and sensory stimulation (sandboxes, musical toys, light-up toys, etc.).

[0004] Among them, toys with audio-visual functions are the most likely to arouse children's interest in playing with them.

[0005] Traditional children's toys have relatively limited functions. For example, telescopes can only meet the function of children observing distant objects, but they cannot receive the sounds emitted by distant objects or the sounds received by the ears are very weak. They cannot simultaneously meet the functions of sight and hearing (increasing the field of vision and sound capture). Therefore, we need to propose a children's toy that can receive sound remotely. Utility Model Content

[0006] The purpose of this invention is to provide a children's toy that can remotely receive audio. Through the design of a telescope, children can easily and clearly observe the situation of distant objects. Through the design of an audio receiver and a reflector, it can receive audio signals from a distance, and after signal processing (amplification, filtering, etc.), the signals are transmitted to the child's ears through headphones, easily capturing faint sounds from afar. With the cooperation of the telescope and the audio receiver, this device integrates acoustic monitoring and optical observation, while simultaneously satisfying audiovisual functions and enhancing children's enjoyment of playing with it, thereby solving the problems mentioned in the background art.

[0007] To achieve the above objectives, the present invention provides the following technical solution: a children's toy capable of remote sound reception, comprising a fixedly connected outer shell and a handle, wherein a reflector for reflecting audio signals and an audio receiver for receiving audio signals reflected by the reflector are mounted on the front end of the outer shell, and the surface of the reflector is spherical.

[0008] The housing contains a telescope for observing distant objects, and a rotatable control mechanism is mounted on one side of the housing. The audio receiver is electrically connected to the control mechanism.

[0009] Preferably, the telescope includes an eyepiece and an objective lens, with the observation end of the eyepiece located at the rear end of the housing and the other end of the eyepiece located inside the housing, and the objective lens mounted at the front end of the housing, and the eyepiece and objective lens being coaxially arranged.

[0010] Preferably, the control mechanism includes a housing with a built-in circuit board. A button and a volume control knob are respectively installed on the upper surface of the housing. An earphone jack is provided on the side of the housing. The interfaces on the button, volume control knob, and earphone jack are all electrically connected to the circuit board.

[0011] Preferably, the front end of the outer shell is integrally formed with two buckles, the buckles are elastic buckles, and the reflector has a through hole that matches the front end of the outer shell, the buckles are engaged with the side wall of the through hole.

[0012] Preferably, an opening is provided on one side of the outer casing, and a flipping mechanism is rotatably installed inside the opening, with the control mechanism connected to the flipping mechanism.

[0013] Preferably, the flipping mechanism includes a flap for sealing the opening, the housing is connected to the flap, and a limiting block is connected to the lower end of the flap on the side away from the housing, the limiting block abutting against the inner wall of the opening.

[0014] Preferably, connecting blocks are installed at the lower parts of both ends of the flap, and two rotating seats are installed on the outer shell near the lower end of the opening side, with the connecting blocks connected to the rotating seats.

[0015] Compared with the prior art, the beneficial effects of this utility model are:

[0016] 1. This utility model, through the design of a telescope, allows children to easily and clearly observe the situation of distant objects. Through the design of an audio receiver and a reflector, it can receive audio signals from a distance, and after signal processing (amplification, filtering, etc.), the signals are transmitted to the child's ears through headphones, easily capturing faint sounds from afar. With the cooperation of the telescope and the audio receiver, this device realizes the integration of acoustic monitoring and optical observation, while satisfying the functions of audiovisual perception and enhancing the fun of playing with children.

[0017] 2. This utility model, through the design of the flipping mechanism, allows the bottom of the control mechanism to be brought closer to the outer shell when the device is not in use, thereby reducing the size of the device and making it easier to carry in a storage box. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the structure of this utility model;

[0019] Figure 2 This is a side view of the present invention.

[0020] Figure 3 This is a schematic diagram of the control mechanism of this utility model;

[0021] Figure 4 This is a schematic diagram of the structure of the outer shell and handle of this utility model;

[0022] Figure 5 This is a schematic diagram of the structure of the telescope of this utility model;

[0023] Figure 6 This utility model Figure 4 Enlarged view of part A in the middle.

[0024] In the diagram: 1. Outer shell; 101. Opening; 2. Reflector; 3. Audio receiver; 4. Telescope; 41. Eyepiece; 42. Objective lens; 6. Control mechanism; 61. Housing; 62. Button; 63. Volume control knob; 64. Headphone jack; 7. Handle; 8. Flip mechanism; 81. Flip plate; 82. Rotating base; 83. Connecting block; 84. Limiting block; 9. Buckle. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] Please see Figure 1-6 This utility model provides a technical solution: a children's toy that can remotely receive audio signals, including a fixedly connected outer shell 1 and a handle 7. The front end of the outer shell 1 is equipped with a reflector 2 for reflecting audio signals and an audio receiver 3 for receiving audio signals reflected by the reflector 2. The surface of the reflector 2 is spherical. The spherical reflector 2 can enhance the focusing ability of audio signals, expand the sound wave reflection angle, and enhance the signal receiving sensitivity.

[0027] The audio receiver 3 and the reflector 2 are designed to focus, reducing environmental noise interference and improving the clarity of the target sound source.

[0028] Both the outer shell 1 and the handle 7 are made of plastic. The handle 7 is located below the outer shell 1. The connection between the outer shell 1 and the handle 7 makes the overall appearance of the device resemble a pistol, which not only makes it easier for children to hold and improves the stability of operation, but also increases the fun for children to use.

[0029] The inside of the outer casing 1 is equipped with a telescope 4 for observing the state of distant objects. A rotatable and retractable control mechanism 6 is installed on one side of the outer casing 1 to reduce the size of the device and make it easy to carry and store. The audio receiver 3 is electrically connected to the control mechanism 6.

[0030] It is worth noting that the control mechanism 6 includes an audio signal processing module (existing technology and commercially available), which can process the audio signal captured by the audio receiver 3 and transmit the processed audio signal to the headphones (the headphones are plugged into the headphone jack 64).

[0031] The telescope 4 includes an eyepiece 41 and an objective lens 42. The observation end of the eyepiece 41 is located at the rear end of the housing 1, and the other end of the eyepiece 41 is located inside the housing 1. The objective lens 42 is mounted at the front end of the housing 1, and the eyepiece 41 and the objective lens 42 are coaxially arranged.

[0032] Optionally, a protective ring is installed at the observation end of the eyepiece 41. This protective ring can be made of soft materials such as foam or sponge to prevent it from hurting the child's eye socket.

[0033] The control mechanism 6 includes a housing 61 with a built-in circuit board. A button 62 and a volume control knob 63 are respectively installed on the upper surface of the housing 61. An earphone jack 64 is provided on the side of the housing 61. The interfaces on the button 62, the volume control knob 63, and the earphone jack 64 are all electrically connected to the circuit board.

[0034] The volume is adjusted by rotating the volume control knob 63, allowing for precise control of the decibel range and preventing hearing damage from sudden high decibel levels. Button 62 includes a power button for the entire device and a control button for turning the audio receiver 3 on and off.

[0035] The front end of the outer shell 1 is integrally formed with two snap fasteners 9. The snap fasteners 9 are elastic snap fasteners. The reflector 2 has a through hole that matches the front end of the outer shell 1. The snap fasteners 9 are engaged with the side wall of the through hole. The two snap fasteners 9 are used to position the reflector 2.

[0036] An opening 101 is provided on one side of the outer casing 1. A flipping mechanism 8 is rotatably installed inside the opening 101, and a control mechanism 6 is connected to the flipping mechanism 8.

[0037] Because the width of the control mechanism 6 is relatively wide, and the thickness of the control mechanism 6 is much smaller than the width of the control mechanism 6, when not in use, the control mechanism 6 can be rotated 90° to flip the control mechanism 6, thereby reducing the size of the device and making it easier to store.

[0038] The flipping mechanism 8 includes a flip plate 81 for sealing the opening 101. The housing 61 is connected to the flip plate 81. A limit block 84 is connected to the lower end of the side of the flip plate 81 away from the housing 61. The limit block 84 abuts against the inner wall of the opening 101.

[0039] Optionally, a rubber layer is installed on the upper side of the flap 81. The rubber layer abuts against the inner wall of the opening 101. The friction between the rubber layer and the inner wall of the opening 101 maintains the stability of the flap 81. Furthermore, a partition (not shown in the figure) is provided inside the outer casing 1. A magnet is installed on the partition, and an iron block is installed on the flap 81. When the flap 81 is flipped to a vertical position, the magnet and the iron block are attracted together, further ensuring the stability of the flap 81.

[0040] like Figure 6 As shown, connecting blocks 83 are installed at the lower ends of both ends of the flap 81, and two rotating seats 82 are installed on the lower side of the outer shell 1 near the opening 101. The connecting blocks 83 are connected to the rotating seats 82.

[0041] In use, align the front part of the device (reflector 2 and audio receiver 3) with the direction where sound needs to be received, insert the headphones into the headphone jack 64, press button 62, and the audio receiver 3 will start working. First, the sound from the front monitoring position is transmitted to the reflector 2, and the reflector 2 then reflects the sound signal to the audio receiver 3. After signal processing (filtering, amplification, etc.) and conversion (audio signal processing and conversion are existing technologies and will not be described in detail here), the sound from the front can be heard through the headphones, and the volume can be adjusted by turning the volume control knob 63.

[0042] At the same time, by aiming the eyes at the eyepiece 41 in the telescope 4 and with the cooperation of the objective lens 42, the dynamic situation at the monitoring position in front can be clearly observed. With the dual monitoring of sound and field of vision, the situation of things in front can be understood accurately and conveniently, satisfying children's curiosity.

[0043] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A children's toy capable of remote sound reception, characterized in that: It includes a fixedly connected housing (1) and handle (7). The front end of the housing (1) is equipped with a reflector (2) for reflecting audio signals and an audio receiver (3) for receiving audio signals reflected by the reflector (2). The surface of the reflector (2) is spherical. The inside of the outer shell (1) is equipped with a telescope (4) for observing the state of distant objects. A control mechanism (6) that can be rotated and stored is installed on one side of the outer shell (1). The audio receiver (3) is electrically connected to the control mechanism (6).

2. A children's toy capable of remote sound reception according to claim 1, characterized in that: The telescope (4) includes an eyepiece (41) and an objective lens (42). The observation end of the eyepiece (41) is located at the rear end of the housing (1), and the other end of the eyepiece (41) is located inside the housing (1). The objective lens (42) is installed at the front end of the housing (1). The eyepiece (41) and the objective lens (42) are coaxially arranged.

3. A children's toy capable of remote sound reception according to claim 1, characterized in that: The control mechanism (6) includes a housing (61) with a built-in circuit board. A button (62) and a volume adjustment knob (63) are respectively installed on the upper surface of the housing (61). An earphone hole (64) is provided on the side of the housing (61). The interfaces on the button (62), the volume adjustment knob (63), and the earphone hole (64) are all electrically connected to the circuit board.

4. A children's toy capable of remote sound reception according to claim 3, characterized in that: The front end of the outer shell (1) is integrally formed with two buckles (9). The buckles (9) are elastic buckles. The reflector (2) has a through hole that matches the front end of the outer shell (1). The buckles (9) are snapped onto the side wall of the through hole.

5. A children's toy capable of remote sound reception according to claim 4, characterized in that: An opening (101) is provided on one side of the outer shell (1), and a flipping mechanism (8) is rotatably installed inside the opening (101). The control mechanism (6) is connected to the flipping mechanism (8).

6. A children's toy capable of remote sound reception according to claim 5, characterized in that: The flipping mechanism (8) includes a flip plate (81) for sealing the opening (101), the housing (61) is connected to the flip plate (81), and a limiting block (84) is connected to the lower end of the side of the flip plate (81) away from the housing (61), the limiting block (84) abutting against the inner wall of the opening (101).

7. A children's toy capable of remote sound reception according to claim 6, characterized in that: Connecting blocks (83) are installed at the lower ends of both ends of the flap (81). Two rotating seats (82) are installed on the lower end of the outer shell (1) near the opening (101). The connecting blocks (83) are connected to the rotating seats (82).