KR-102961395-B1 - SNIVEL SUCTION DEVICE

Abstract

The present invention relates to a nasal aspirator for aspirating children's nasal mucus, comprising: a main body; an intake port and an exhaust port into which a tube can be inserted in the front of the main body; a display showing a reaction image and a speaker that plays a reaction sound when the main body is in operation; a collection port connected to each of the intake port and exhaust port to suck in and discharge a substance sucked in, and a pump module that supplies air pumped to the collection port, wherein the intake port includes a check valve that maintains the direction of suction; a cooling fan that cools the pump module; and a control unit that controls the operation of the main body.

Inventors

• 강범규

Assignees

• 프리젠트 주식회사

Dates

Publication Date

20260511

Application Date

20230712

Claims (3)

1. Regarding nasal aspirators; The main body (100) is configured to be equipped with an intake port (110), an exhaust port (120), a display (130), a speaker (140), a pump module (150), a cooling fan (151), and a control unit (160); The above-mentioned discharge port (120) and suction port (110) are configured to allow a tube to be inserted into the front part of the main body (100); The above speaker (140) is configured to be included on one side of the main body (100) to produce a corresponding sound when the main body (100) is in operation; The above display (130) is configured on one side or the front of the main body (100) to display a corresponding image or video when the main body (100) is in operation; The above pump module (150) is configured to be connected to each of the intake port (110) and the exhaust port (120), and is configured to suck in and discharge air; The above cooling fan (151) is configured on one side of the pump module (150) to cool the pump module (150); The above control unit (160) is configured to be provided inside the main body (100) and to control the operation of the main body (100), The above control unit (160) is configured to further include a suction force control unit (161) that controls the amount or strength of the pumped air of the pump module (150); On the lower part of the main body (100), there is an anti-slip pad (170) that prevents slipping and cushions, and The upper part of the main body (100) is provided with an operating part capable of operating the operation. A microphone provided inside or on one side of the main body (100) to acquire sound information, and The above main body (100) further includes a database (169) configured to store information that can be transmitted or displayed to a speaker (140) or a display (130). The above database (169) is configured to store external sound information through a microphone; The above pump module (150) is configured to include an electric motor that rotates a cooling fan (151) and generates power for the operation of a pump (154), a pump (154) that performs a pumping operation, and an electric connector (153) that connects the electric motor and the pump (154) through a cam structure that converts rotational motion into linear motion; The above display (130) is configured to allow the child to have a squinting eye shape, a winking eye shape, a closed eye shape, a heart-shaped eye shape, a crescent-shaped smiling eye shape, a bored eye shape, and a surprised eye shape with wide eyes; The above speaker (140) is configured so that the process of operation can be conveyed to the child in a familiar intonation or sound through speech; The above suction port (110) is configured to suck up the child's nasal mucus by inserting a tube containing a filter that can retain nasal mucus; The above-mentioned discharge port (120) is configured to discharge air sucked in from the pump module (150) so as to be used for drying purposes; In addition, it is configured to further include a load detection unit (162) for detecting the load of the pump module (150); The above control unit (160) is configured to include a response transmission control unit (163) comprising an operation response transmission unit that transmits a response image or sound when the load value, i.e., the current value, increases through a load detection unit (162), and a completion response transmission unit that transmits a response image or sound when the load value decreases; When the above action response transmission unit or completion response transmission unit is operated, onomatopoeia or mimetic words are emitted through the speaker (140) to convey the action response or completion response in the form of a frowning face, a winking face, a closed face, a heart-shaped eye face, a smiling face, and a surprised face, so as to induce curiosity and friendliness in the child; The above control unit (160) is configured to include a child sound recognition unit (164) that stores a crying sound repeated for 5 seconds or more in data and recognizes it as a child's sound, and a recognition response change transmission unit (165) that transmits sound and image information to soothe the child when the child's sound is repeatedly continuous after child sound recognition; A nasal aspirator characterized by further including a comparison recognition unit (166) that distinguishes a child's sound by comparing sound data operated in the operation response transmission unit and the completion response transmission unit when recognizing a child's sound.
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Description

Nasal Success Device The present invention relates to a nasal aspirator for aspirating children's nasal mucus. In general, infants have weak resistance and a high probability of contracting diseases. Due to their reduced ability to regulate their own body temperature, they frequently catch viral respiratory illnesses, such as the common cold, especially during the winter. If you catch a cold, you may experience a runny nose or nasal congestion caused by the runny nose, and in severe cases, it can cause respiratory difficulties and put you in a dangerous situation. When such nasal congestion occurs, the mucus must be removed. Infants cannot blow their noses on their own, so they use tissues or cotton swabs to remove it, while adults use tissues to blow their noses to remove the mucus. The prior art describes a nasal discharge suction device in which a tip and a mouthpiece are connected by hoses on both sides. It comprises a reservoir assembled with a lid having an upwardly extended protruding tube to connect the hoses, and an inlet tube connected to the lower end of the hose connected to the tip, which is used to suction nasal discharge. However, as the suction force of the suctioner is transmitted indirectly to the tip through the reservoir, not only is the suction force reduced, but there is also a problem in that the nasal discharge stored in the reservoir may flow back into the suctioner's mouth during the suction process. In addition, there is a problem in that children cannot easily aspirate nasal mucus because the noise or the sensation during aspiration from the nasal aspirator can cause great discomfort. FIG. 1 is an exemplary diagram showing the operation of an operation response delivery section or a completion response delivery section of a nasal aspirator, which is an embodiment of the present invention. FIG. 2 is an exploded perspective view illustrating a nasal aspirator, which is an embodiment of the present invention. FIG. 3 is a perspective view illustrating a nasal aspirator, which is an embodiment of the present invention. FIG. 4 is an exemplary diagram of a motor module illustrating a nasal aspirator, which is an embodiment of the present invention. FIG. 5 is a plan view illustrating the operating part of a nasal aspirator, which is an embodiment of the present invention. FIG. 6 is a rear perspective view illustrating a nasal aspirator, which is an embodiment of the present invention. FIG. 7 is a schematic diagram illustrating a nasal aspirator, which is an embodiment of the present invention. FIG. 8 is a schematic diagram illustrating a nasal aspirator, which is another embodiment of the present invention. FIG. 9 is a schematic diagram illustrating a nasal aspirator, which is another embodiment of the present invention. FIG. 10 is a schematic diagram illustrating a nasal aspirator, which is another embodiment of the present invention. The present invention comprises a main body (100) and an intake port (110), an exhaust port (120), a speaker (140), a pump module (150), a cooling fan (151), and a control unit (160). The above-mentioned discharge port (120) and suction port (110) are provided so that a tube can be inserted into the front part of the main body (100). The above speaker (140) is included on one side of the main body (100) to provide a corresponding sound when the main body (100) is in operation. The above display (130) is provided on one side or the front of the main body (100) to display a corresponding image or video when the main body (100) is in operation. The above pump module (150) is configured to be connected to each of the intake port (110) and the exhaust port (120), and draws in and discharges air. The above cooling fan (151) is provided on one side of the pump module (150) to cool the pump module (150). The above control unit (160) is provided inside the main body (100) and controls the operation of the main body (100). Additionally, the control unit (160) further includes a suction force control unit (161) that controls the amount or strength of the pumped air of the pump module (150). Additionally, the lower part of the main body (100) may further include an anti-slip pad (170) that prevents slipping and cushions. In addition, the upper part of the main body (100) further includes an operating part capable of operating. In addition, a microphone for acquiring sound information is included inside or on one side of the main body (100). Additionally, the main body (100) includes a database (169) that stores information to be transmitted or displayed to a speaker (140) or a display (130). The above database (169) includes storing external sound information through a microphone. Here, the main body (100) can be shaped like an animal or a cartoon character that can be approached in a friendly way by a child. The above pump module (150) includes an electric motor that rotates a cooling fan (151) and generates power for the operation of a pump (154), a pump (154) that